Del Mar Photonics - Del Mar Photonics at Optics and Photonics 2008
Clusters versus FPGAs for spectral mixture analysis-based
lossy hyperspectral data compression (Paper Presentation)
Paper 7084-1 of Conference 7084
Authors(s): Antonio J. Plaza, Univ. de Extremadura (Spain)
Date: Sunday, 10 August 2008
Our main focus in this work is to design compression techniques able to reduce
significantly the large volume of information contained in the original
hyperspectral data cube while, at the same time, being able to retain
information that is crucial to deal with mixed pixels and subpixel targets. We
have implemented the proposed lossy compression techniques on massively parallel
computing facilities, including Thunderhead, a 256-processor Beowulf cluster at
NASA’s Goddard Space Flight Center in Maryland, and a Xilinx Virtex-II field
programmable gate array (FPGA) with millions of logical gates and appealing from
the viewpoint of onboard data compression.
Content-adaptive prediction for hyperspectral image compression
(Paper Presentation)
Paper 7084-2 of Conference 7084
Authors(s): Shuai Wan, Northwestern Polytechnical Univ. (China); Fuzheng Yang,
Xidian Univ. (China); Mingyi He, Northwestern Polytechnical Univ. (China)
Date: Sunday, 10 August 2008
In this paper, the correlation among residual images after spectral prediction
is analyzed. Based on the analysis, a content adaptive prediction method is
proposed for hyperspectral image compression. The proposed method performs
spatial and spectral decorrelation for residual images according to the image
content. Through further exploiting the redundancy in residual images, the
proposed method contributes to improvement on compression efficiency for
predictive approaches. The proposed prediction method is content-adaptive and
well suited for both lossless and lossy hyperspectral image compression.
Interactive decoding of spectrally wavelet-transformed
hyperspectral data (Paper Presentation)
Paper 7084-4 of Conference 7084
Authors(s): José Lino Monteagudo-Pereira, Joan Bartrina-Rapesta, Francesc
Aulí-Llinàs, Joan Serra-Sagrista, Alaitz Zabala, Xavier Pons, Univ. Autònoma de
Barcelona (Spain)
Date: Sunday, 10 August 2008
No description available
Feature acquisition from hyperspectral remote sensing data (Paper Presentation)
Paper 7084-9 of Conference 7084
Authors(s): Mingyi He, Northwestern Polytechnical Univ. (China)
Date: Sunday, 10 August 2008
Geometric information in 2D and 3D images and spectral information in
multi-/hyper-spectral images are very significant aspects in machine perception
and remote sensing. Multi-/hyperspectral images from multiple physical phenomena
contain more essential information for detecting, identifying and understanding
objects and environment. Hyperspectral remote sensing provides high-dimensional
data sets with better discrimination among spectral signatures or fingerprints
than the traditional multispectral scanners. However, the vast amount of data
volume presents challenging problems for hyperspectral information processing.
Feature acquisition is one of the crucial steps when dealing with classification
and tracking problems with respect to spectral images. Two feature acquisition
approaches, that is, feature extraction in kernel space using Bhattacharyya
distance (BKFE for short) and feature selection with neural network weighting (NNWFS)
will be presented in this paper. (1) In feature extraction: BKFE has two
desirable advantages: features extracted by BKFE are more effective for
classification and BKFE predicts the upper-bound of the number of necessary
features to achieve the same classification accuracy as in the original space
for a given pattern recognition problem. Experiments were carried out to compare
the performance of BKFE with KPCA, KFD, and FD’s and it has been shown that BKFE
can provide more informative features for pattern classification than the other
three methods. (2) In feature selection: A neural network weighting based
approach for identifying useful bands for classification of hyperspectral data
sets is presented. Instead of using sequential search like most feature
selection methods based on neural networks, the approach adopts feature
weighting strategy to cut down the computational cost significantly. The neural
network is trained by a mean square error function with regulation terms which
can improve the generation performance. Experimental results with hyperspectral
data demonstrated the effectiveness of the NNWFS method and it is also shown
that the NNWFS method outperforms state-of-the-art feature selection methods,
namely SFS, SFFS, MVPCA, MSNRPC and AMMCA.
Unsupervised segmentation of hyperspectral images (Paper
Presentation)
Paper 7084-10 of Conference 7084
Authors(s): Sangwook Lee, Chulhee Lee, Yonsei Univ. (South Korea)
Date: Sunday, 10 August 2008
We propose a new unsupervised segmentation method for hyper spectral images
using edge fusion. We first remove noisy spectral band images by examining
correlation. Then, the Canny algorithm is applied to the remaining images to
find edges. This procedure is applied to each of the remaining images, which
produces a number of edge images. To combine the edge images, we compute the
average of them. Finally, we apply thresholding operation to the average edge
image to obtain a binary edge image. Experimental results with the AVIRIS data
show that the proposed algorithm produces satisfactory segmentation results
without user inputs.
Analysis and verification of resolution limits of a hyperspectral
imager using computed tomography (Paper Presentation)
Paper 7094-7 of Conference 7094
Authors(s): Samuel V. Mantravadi, Steven C. Cain, Air Force Institute of
Technology
Date: Monday, 11 August 2008
In recent work, the resolution limits of two variations of chromo-tomagraphic
hyperspectral imaging sensors were discussed. In this paper, we examine the
resolution limits of another variation of this type of hyperspectral sensor and
present a reconstruction method using computed tomography to estimate a
hyperspectral data cube. The resolution analysis is then compared with a simple
laboratory set up to determine the validity of the calculated resolution bounds.
The laboratory setup is discussed and experimental results are presented.
Improved hyperspectral imagery using a rotating polarizer (Paper
Presentation)
Paper 7065-7 of Conference 7065
Authors(s): David Wellems, David Bowers, Air Force Research Lab.
Date: Monday, 11 August 2008
The utility of polarimetric hyperspectral data and subsequent formation of a
polarimetric hyper-spectral dot-product or spectral angle image will be
investigated. Polarimetric BRDF measurement experience using a visible grating
spectral polarimeter (VGSP), indicates that scattering from many outdoor
materials can be decomposed into a polarimetric 1st surface single scatter
component having no significant spectral dependence and a diffuse component
having a spectral dependence. A polarizer would enhance the spectral contrast in
a scene by reducing the amount of polarized 1st surface reflection.
Active multi/hyperspectral imaging and sensing with ultra-short
pulse continuums (Paper Presentation)
Paper 7094-13 of Conference 7094
Authors(s): Keith A. Blanks, The Aerospace Corp.
Date: Monday, 11 August 2008
It is shown although divergent upon exiting an optical solid, and typically
color dispersive over short propagation distances, controllably generated ultra
broadband continuums can be propagated as a pulsed white-light source with a
near-ideal Gaussian intensity distribution. In contrast to active 3-D imagery
with monochromatic illumination, pulsed ultra-broadband continuum illumination
is shown to enable active 3-D multi/hyperspectral imaging and sensing for
standoff characterization of materials and enhanced object identification.
The EnMAP hyperspectral imaging spectrometer: instrument concept,
calibration and technologies (Paper Presentation)
Paper 7086-4 of Conference 7086
Authors(s): Bernhard Sang, Stefan Hofer, Klaus-Peter Förster, Timo Stuffler,
Josef Schubert, Christian Neumann, Valery Mogulsky, Stefan Kaiser, Kayser-Threde
GmbH (Germany); Hermann J. Kaufmann, GeoForschungsZentrum Potsdam e.V.
(Germany); Andreas Müller, German Aerospace Ctr. (Germany); Christian Chlebek,
Deutsches Zentrum für Luft- und Raumfahrt e.V. (Germany)
Date: Tuesday, 12 August 2008
The Environmental Mapping and Analysis Program (EnMAP) is a German space based
hyperspectral mission planned for launch in 2011. The hyperspectral imaging
instrument covers the wavelength range from 420-2450nm using a dual spectrometer
layout. Both f/3 spectrometers employ a prism disperser for maximum throughput
and are linked to the common foreoptics by a micromechanical field splitter.
Together with custom designed silicon and MCT-based detector arrays this sensor
design exhibits a peak system SNR of 1000 at 495nm and of more than 300 at
2200nm. Stable in orbit performance is ensured by a multi loop thermal control
system and system calibration is performed using onboard sources as well as a
full aperture diffuser.
Voltage tunable hyperspectral quantum dot infrared photodetector
(QDIP) (Paper Presentation)
Paper 7095-21 of Conference 7095
Authors(s): Xuejun Lu, Jarrod Vaillancourt, Univ. of Massachusetts/Lowell
Date: Tuesday, 12 August 2008
A MEMS-based voltage controllable hyper-spectral quantum dot infrared
photodetector (QDIP) is reported. The hyperspectral QDIP uses a novel
transparent conductive carbon nanotube (CNT) thin-film network as the electrode.
By tuning the bias of the transparent electrode coated on the membrane, the
cavity length and corresponding passband of the filter can be changed
accordingly with low optical loss. Such MEMS-based hyper-spectral QDIP would
also enable quick spectral scan of IR characteristics of chemical and biological
materials.
Evaluation of spectral unmixing algorithms on synthetic and Mars
analog hyperspectral images (Paper Presentation)
Paper 7086-7 of Conference 7086
Authors(s): Neena K. Rodricks, Laurel E. Kirkland, Lunar and Planetary Institute
Date: Tuesday, 12 August 2008
Spectral unmixing by linear least-squares is widely used to identify and
estimate mineral abundance in the hyperspectral images. This research addresses
the negative abundance problem in conjunction with other issues that cause the
linear spectral unmixing algorithm to go into a failure mode. This is an area of
concern when modeled results may appear to be accurately calculated but cannot
be validated especially when a priori information of the target scene is hard to
assess. Various algorithms were evaluated to analyze synthetic and field images
from terrestrial Mars analog sites to understand factors limiting the linear
unmixing solution.
Block truncation signature coding for hyperspectral analysis
(Paper Presentation)
Paper 7086-12 of Conference 7086
Authors(s): Sumit Chakravarty, Chein-I Chang, Univ. of Maryland/Baltimore County
Date: Wednesday, 13 August 2008
No description available
A family of distributions for the error term in linear mixing models for
hyperspectral images (Paper Presentation)
Paper 7086-13 of Conference 7086
Authors(s): Peter Bajorski, Rochester Institute of Technology
Date: Wednesday, 13 August 2008
In this paper, we consider a linear mixing model with a structured background
and an error term. Such models perform well both for the purpose of unmixing as
well as target detection. However, an important question in both of these types
of applications is the distributional structure of the error term in the model.
Investigation of real hyperspectral images indicates that the normal (Gaussian)
distribution does not give a good approximation of the error term distribution.
We investigate a family of exponential power distributions and its potential for
improved approximation of the error term distribution. We use a method of the
maximum likelihood estimation of the parameters, and show goodness of fit of the
resulting linear mixing model for an AVIRIS hyperspectral image.
Hyperspectral imaging of non-stellar astronomical objects (Paper
Presentation)
Paper 7075-19 of Conference 7075
Authors(s): James F. Scholl, College of Optical Sciences/The Univ. of Arizona;
E. Keith Hege, MKS Imaging Technology, LLC and The Univ. of Arizona/Steward
Observatory; Michael Lloyd-Hart, The Univ. of Arizona/Steward Observatory;
Daniel G. O'Connell, Hnu Photonics
Date: Wednesday, 13 August 2008
There are certain classes of astronomical objects that have rather involved
spectra that can also be a composite of a number of different spectral
signatures. Such objects include galaxies and quasars with active nuclei,
colliding / interacting galaxies, and globular cluster systems around our own
Milky Way and other galaxies. It is therefore useful to use hyperspectral
imaging systems for simultaneous spatial and spectral feature extraction.
Previous work has explored spectral unmixing and other types of feature
extraction of these general types of objects, but without consideration of the
hyperspectral imaging system involved – both in how the data is collected and
the reconstruction of the datacube. We will present results of simulations of
such objects as they are imaged through such an imaging system and their
datacubes reconstructed. We will examine how the imaging and reconstruction
process affects feature extraction.
Linking water vapor channels of GOES-11 and GOES-12 imagers using
IASI hyperspectral observations (Paper Presentation)
Paper 7085-15 of Conference 7085
Authors(s): Likun Wang, National Oceanic and Atmospheric Administration
Date: Wednesday, 13 August 2008
The upper tropospheric humidity (UTH) fields play a very important role for the
outgoing longwave radiation and the greenhouse effect. Due to differences in
instrument calibration and spectral responses, however, a chronic difficulty
often arises in creating consistent water vapor observations from different
geostationary imagers. A procedure is necessary to intercalibrate the
measurements made by different satellites with a common reference. The IASI
measurements allow more accurate comparisons of measured radiances with other
broadband instruments sharing the same spectral regions. In this study, we use
the high spectral-resolution IASI on the polar-orbiting MetOp satellite to
inter-calibrate the water vapor channels on GOES-11 and GOES-12 imagers to
characterize their calibration accuracy. We will use IASI hyperspectral radiance
to link GOES water vapor channels to resolve their spectral differences.
Airborne configuration of a longwave infrared imaging
hyperspectral sensor (Paper Presentation)
Paper 7086-19 of Conference 7086
Authors(s): Alexandre Vallières, Jean-Pierre Allard, Martin Chamberland, Vincent
Farley, Philippe Lagueux, André J. Villemaire, Telops, Inc. (Canada)
Date: Wednesday, 13 August 2008
Telops has developed the FIRST, a LWIR hyperspectral imager. The FIRST is based
on Fourier Transform technology yielding high spectral resolution and enabling
high accuracy radiometric calibration. The FIRST, a man portable sensor,
provides datacubes of up to 320x256 pixels at 0.35mrad spatial resolution over
the 8-12 µm spectral range at spectral resolutions of up to 0.25cm-1. The FIRST
sensor modularity enables operation in various configurations such as
tripod-mounted and airborne. In the airborne configuration, the FIRST can be
operated in push-broom mode, or in staring mode with image motion compensation.
This paper will focus on the airborne operation of the FIRST sensor.
Hyperspectral oblique target detection (Paper Presentation)
Paper 7086-23 of Conference 7086
Authors(s): Josef P. Bishoff, Canadian Air Forces (Canada) and Rochester
Institute of Technology; David W. Messinger, Emmett J. Ientilucci, Rochester
Institute of Technology
Date: Wednesday, 13 August 2008
This work explores target detection using simulated HSI captured from oblique
angles and seeks to determine which domain, radiance or reflectance, is more
appropriate for the oblique case. An oblique atmospheric compensation technique
is presented that is based on the Empirical Line Method (ELM). A forward
modeling technique that is appropriate for use on oblique HSI is also presented.
Standard target detection algorithms are used in each domain. The results
indicate comparable performance in both domains. The practicality of the forward
modeling technique presented, however, makes the radiance domain an attractive
domain for oblique target detection.
Unsupervised hyperspectral target analysis (Paper Presentation)
Paper 7086-24 of Conference 7086
Authors(s): Xiaoli Jiao, Chein-I Chang, Univ. of Maryland/Baltimore County
Date: Wednesday, 13 August 2008
No description available
Dynamic mixing kernels in Gaussian Mixture Classifier for
Hyperspectral Classification (Poster Presentation)
Paper 7075-29 of Conference 7075
Authors(s): Vikram Jayaram, University of Texas at El Paso
Date: Wednesday, 13 August 2008
In this paper, new Gaussian mixture classifiers are designed to deal with the
case of an unknown number of mixing kernels. Not knowing the true number of
mixing components is a major learning problem for a mixture classifier using EM.
To overcome this problem our Hyperspectral classification training algorithm
uses a combination of covariance constraints, dynamic pruning, splitting and
merging of mixture kernels of the Gaussian mixture with a constraint for an
optimal class fit. The results of simulated and real Hyperspectral imagery (HSI)
experiments suggested that this new methodology is a potential alternative to
the traditional mixture based classification using EM.
Improved iterative error analysis for endmember extraction from
hyperspectral imagery (Poster Presentation)
Paper 7086-27 of Conference 7086
Authors(s): Lixin Sun,
Date: Wednesday, 13 August 2008
This paper proposes an improved version of the iterative error analysis (IEA)
algorithm for extracting endmembers from a hyperspectral image. The improvements
are made from two aspects: (1) the fully constrained least square is replaced by
a weakly constrained (nonnegativity and sum less or equal to one constraints)
least square; (2) a pixel spectrum is identified as a new endmember depending on
not only its spectral extremity in the vector hyperspace of a given data set but
also its capacity to linearly represent other pixel spectra. The endmembers
extracted using the improved and original IEA are compared based on a Hyperion
data set.
Superresolution image reconstruction via panchromatic and
multispectral image fusion (Poster Presentation)
Paper 7072-68 of Conference 7072
Authors(s): Mohamed I. Elbakary, Mohammad S. Alam, Univ. of South Alabama
Date: Wednesday, 13 August 2008
Hyperspectral imagery is used for a wide variety of applications, including
target detection, tacking, agricultural monitoring and natural resources
exploration. The main reason for using hyperspectral imagery is that these
images reveal spectral information about the scene that is not available in a
single band. Unfortunately, many factors such as sensor noise and atmospheric
scattering degrade the spatial quality of these images. Recently, many
algorithms are introduced in the literature to improve the resolution of
hyperspectral images using co-registered high special-resolution imagery such as
panchromatic imagery. In this paper, we propose a new algorithm to enhance the
spatial resolution of low resolution hyperspectral bands using strongly
correlated and co-registered high special-resolution panchromatic imagery. The
proposed algorithm constructs the superresolution bands corresponding to the low
resolution bands to enhance the resolution using a global correlation
enhancement technique. The global enhancement is based on the least square
regression and the histogram matching to improve the estimated interpolation of
the spatial resolution. The introduced algorithm is considered as an improvement
for Price’s algorithm which uses the global correlation only for the spatial
resolution enhancement. Numerous studies are conducted to investigate the effect
of the proposed algorithm for achieving the enhancement compared to the
traditional algorithms for superresolution enhancement. Experiments results
obtained using hyperspectral data derived from airborne imaging sensor are
presented to verify the superiority of the proposed algorithm.
Wavelet based hyperspectral target detection using spectral fringe-adjusted
joint transform correlation (Poster Presentation)
Paper 7072-66 of Conference 7072
Authors(s): Wesam A. Sakla, Texas A&M Univ.; Adel Sakla, Mohammad S. Alam, Univ.
of South Alabama
Date: Wednesday, 13 August 2008
Automatic target recognition has made significant gains with the advent of
hyperspectral imaging (HSI) sensors. In HSI target detection applications, the
targets are sparse and typically occupy less than 1% of the pixels in a
hyperspectral scene, making it nearly impossible to apply traditional spatial
processing algorithms. Consequently, most HSI detection algorithms exploit the
spectral information of the scene (i.e., the reflectance values at distinct
wavelength bands of each pixel in the scene). HSI detection algorithms can be
broadly classified into statistical and deterministic approaches. HSI detection
algorithms must cope with the problems of spectral variability and spectral
mixing, which degrade the performance of the detection process. Recently, we
have combined the 1-D spectral fringe-adjusted joint transform correlation (SFJTC)
technique and the discrete wavelet transform (DWT) as an effective means for
providing enhanced deterministic target detection.
This paper expands upon earlier work that demonstrates the utility of the DWT in
conjunction with SFJTC for detection. We show that using particular DWT
coefficients at a given decomposition level or the reconstructed signal from
these coefficients at that level can significantly improve the ROC curve
behavior of the detection process in comparison to using the original data. The
DWT coefficients that are selected for detection are based solely on the target
signature. We illustrate this by conducting experiments on two different
hyperspectral scenes containing varying amounts of simulated noise.
Hyperspectral imaging with wavelet transform for colon tissue biopsy samples
(Paper Presentation)
Paper 7073-49 of Conference 7073
Authors(s): Khalid Masood, Univ. of Warwick (United Kingdom)
Date: Wednesday, 13 August 2008
Hyperspectral Images contain rich and fine spectral information for human colon
biopsies on a tissue micro-array. 128 different wavelengths of visible light
spectra transilluminate the biopsy samples through a Nikon Biophot microscope
with 400X magnification. Dimensionality reduction and segmentation is achieved
using Daubechies-4 wavelet filters. We investigate the effect of wavelet
textural features on the classification accuracy for benign and malignant
classes using gaussian kernel SVMs. ROCs indicate the effectivity of the
algorithms with improved perfromance.
Bragg tunable filter: from hyperspectral imaging to supercontinuum-based tunable
source (Paper Presentation)
Paper 7056-40 of Conference 7056
Authors(s): Sebastien Blais-Ouellette, Photon Etc. Inc. (Canada)
Date: Thursday, 14 August 2008
Based on Volume Holographic Gratings, the Bragg Tunable Filter technology has
allowed the development of very efficient hyperspectral imagers for a variety of
applications. As an imaging tunable filter, the device is able to collect sub-nm
bandwidth images from scenes like quantum dots, carbon nanotubes and human skin.
When couple to a supercontinuum laser source, the filter becomes a powerful
narrow band source. Its output power and large spectral range make it an ideal
source for industrial inspection and biomedical spectral applications. Optical
principles will be presented with relevant results and examples from various
fields.
Spectrally-resolved far infrared radiance determination from existing
mid-infrared instruments (Poster Presentation)
Paper 7085-46 of Conference 7085
Authors(s): Daniel Feldman, California Institute of Technology
Date: Wednesday, 13 August 2008
Spectrally resolved measurements of the Outgoing Longwave Radiation (OLR)in the
3 to 100 um region are of considerable scientific interest because they directly
describe the vertical structure of temperature, water vapor and clouds. NASA EOS
A-Train, NOAA and MetOp, AIRS, IASI or CRIS operational hyperspectral sounders
provide spectrally resolved measurements limited to the 3 to 15 micron region.
In order to investigate the extra information contained in hyperspectral
measurements at wavelengths longer than 15 microns, we explore methods for using
existing mid-IR measurements from the operational sounders to extrapolate to
spectral regions without measurements.
Multiscale remote sensing of wildland fires: from laboratory to landscape
(Paper Presentation)
Paper 7089-2 of Conference 7089
Authors(s): Robert L. Kremens, Rochester Institute of Technology; Matthew B.
Dickinson, Anthony Bova, U.S.D.A. Forest Service; Loredana Suciu, Valerie Young,
Ohio Univ.
Date: Sunday, 10 August 2008
We have conducted a series of very well instrumented wildland fire experiments
using overhead infrared instrumentation. These experiments relate relevant
ecological and environmental parameters like fuel consumption, stem heating,
soil heating and fire severity to physical observables like fire power and fire
energy. These multi-scale experiments range from laboratory scale (~0.5 m on a
side) to landscape scale (2500 m). We will show the results from laboratory
calibrations, small plot field experiments and prescribed fires in Ohio,
Kentucky, Georgia and Florida. Plans for refinement of the methods, including
near-continuous IR videography from a helicopter, will also be discussed.
New possibilities for remote analysis of biomass burning: plumes by DOAS (Paper
Presentation)
Paper 7089-4 of Conference 7089
Authors(s): Ulrich Platt, Ruprecht-Karls-Univ. Heidelberg (Germany)
Date: Sunday, 10 August 2008
Scattered sunlight Multi-AXis Differential Optical Absorption Spectroscopy (MAX-DOAS)
has been successfully applied to the quantitative determination of trace gas
abundances in clean and polluted environments (e.g. to measure halogen oxides in
polar regions, or SO2, NO2, CH2O, glyoxal, and HONO in urban air) In particular
volcanic plumes have been analysed for SO2, BrO, and other species.
We present and discuss promising options for the quantitative analysis of all
above mentioned trace gases in biomass burning plumes, in particular in forest
fire plumes. The technique allows of the total emission burden in the plume with
extremely simple and compact ground – based instruments, which also can be
operated automatically. Combining the measured column densities with wind speed
data the total trace gas flux from the fire can be determined with good
accuracy. A few examples for possible applications of the technique to monitor
fire properties are given.
Feature acquisition from hyperspectral remote sensing data (Paper Presentation)
Paper 7084-9 of Conference 7084
Authors(s): Mingyi He, Northwestern Polytechnical Univ. (China)
Date: Sunday, 10 August 2008
Geometric information in 2D and 3D images and spectral information in
multi-/hyper-spectral images are very significant aspects in machine perception
and remote sensing. Multi-/hyperspectral images from multiple physical phenomena
contain more essential information for detecting, identifying and understanding
objects and environment. Hyperspectral remote sensing provides high-dimensional
data sets with better discrimination among spectral signatures or fingerprints
than the traditional multispectral scanners. However, the vast amount of data
volume presents challenging problems for hyperspectral information processing.
Feature acquisition is one of the crucial steps when dealing with classification
and tracking problems with respect to spectral images. Two feature acquisition
approaches, that is, feature extraction in kernel space using Bhattacharyya
distance (BKFE for short) and feature selection with neural network weighting (NNWFS)
will be presented in this paper. (1) In feature extraction: BKFE has two
desirable advantages: features extracted by BKFE are more effective for
classification and BKFE predicts the upper-bound of the number of necessary
features to achieve the same classification accuracy as in the original space
for a given pattern recognition problem. Experiments were carried out to compare
the performance of BKFE with KPCA, KFD, and FD’s and it has been shown that BKFE
can provide more informative features for pattern classification than the other
three methods. (2) In feature selection: A neural network weighting based
approach for identifying useful bands for classification of hyperspectral data
sets is presented. Instead of using sequential search like most feature
selection methods based on neural networks, the approach adopts feature
weighting strategy to cut down the computational cost significantly. The neural
network is trained by a mean square error function with regulation terms which
can improve the generation performance. Experimental results with hyperspectral
data demonstrated the effectiveness of the NNWFS method and it is also shown
that the NNWFS method outperforms state-of-the-art feature selection methods,
namely SFS, SFFS, MVPCA, MSNRPC and AMMCA.
An analysis of the information dependence between MODIS emissive bands (Paper
Presentation)
Paper 7084-19 of Conference 7084
Authors(s): Michael D. Grossberg, City College/CUNY; W. Paul Menzel, National
Oceanic and Atmospheric Administration; Irina Gladkova, Srikanth Gottipati, City
College/CUNY
Date: Monday, 11 August 2008
Multispectral, hyperspectral and ultraspectral imagers and sounders are
increasingly important for atmospheric science and weather forecasting. The
recent advent of multipsectral and hyperspectral sensors measuring radiances in
the emissive IR are providing valuable new information. This is due to the
presence of spectral channels (in some cases micro-channels) which are carefully
positioned in and out of absorption lines of CO2, ozone, and water vapor. These
spectral micro-channels enable determination of the vertical temperature and
moisture structure of the atmosphere as well as characterization of some of the
trace gases.
The complexity of the spectral structure wherein the emissive bands have been
selected presents challenges for lossless data compression; these are
qualitatively different than the challenges offered by the reflective bands.
Roger Heyman at NOAA has sponsored efforts to model this data specific structure
in order to develop lossless compression algorithms which significantly
outperform traditional methods. For a hyperspectral sounder such as AIRS, the
large number of channels is the principal contributor to data size. We have
shown that methods combining clustering and linear models in the spectral
channels can be effective for lossless data compression. However, when the
number of emissive channels is relatively small compared to the spatial
resolution, such as with the 17 emissive channels of MODIS, such techniques are
not effective. In previous work the CCNY-NOAA compression group has reported an
algorithm which addresses this case by sequential prediction of the spatial
image. While that algorithm demonstrated an improved compression ratio over pure
JPEG2000 compression, it significantly underperformed optimal compression ratios
estimated from entropy. In order to effectively exploit the redundant
information in a progressive prediction scheme we must determine a sequence of
bands in which each band has sufficient mutual information with the next band,
so that it predicts it well.
We will provide a covariance and mutual information based analysis of the
pairwise dependence between the bands and compare this with the qualitative
expected dependence suggested by a physical analysis.
Enhancement of resilience to bit-errors of compressed data on board a
hyperspectral satellite using forward error correction (Paper Presentation)
Paper 7084-6 of Conference 7084
Authors(s): Pirouz Zarrinkhat, Shen-En Qian, Canadian Space Agency (Canada)
Date: Sunday, 10 August 2008
The Canadian Space Agency (CSA) has developed two on-board data compression
techniques for hyperspectral images, called SAMVQ and HSOCVQ. These techniques,
which enjoy remarkably high compression ratios, are near lossless in the sense
that the compression errors they introduce are comparable to the intrinsic noise
of original data. The CSA is planning to place a data compressor using these
techniques on-board a proposed Canadian hyperspectral satellite. The robustness
of SAMVQ and HSOCVQ against error propagation caused by single event upsets is
examined. It is shown that when bit error rate is < 10^-6, almost no loss of
fidelity is observed for the reconstructed data. This bit error rate, however,
is too small for practical uses, and downlinks are very likely to have far more
frequent single event upsets. This paper is to explore the benefits of employing
forward error correction to enhance the resilience to bit errors of the
compressed data in dealing with higher bit error rates.
Stand-off detection of compounds that contain chlorine from an aircraft platform
(Paper Presentation)
Paper 7086-5 of Conference 7086
Authors(s): Robert T. Kroutil, Los Alamos National Lab.
Date: Tuesday, 12 August 2008
Airborne passive hyperspectral infrared spectral detection of chlorinated vapor
species is an important capability in the mitigation of hazards during emergency
response situations. These chemical vapors represent a large component of the
U.S. manufacturing base for the production of various solvents and polymer
products. Halogenated compounds are infrared active and most species can be
detected in the mid-infrared spectral region. Pure chorine gas is infrared
inactive due to the diatomic nature of the molecule. This compound can not be
detected using an infrared sensor. A study will be presented to discuss the
detection of halogen compounds using multispectral and hyperspectral infrared
chemical sensors. Additional information will be presented on alternative
methods for the detection of chlorine gas.
Imaging spectrometry for near-range crop stress detection (Paper Presentation)
Paper 7086-8 of Conference 7086
Authors(s): Jonas Franke, Thorsten Mewes, Gunter Menz, Univ. Bonn (Germany)
Date: Tuesday, 12 August 2008
For the detection of stress factors in crops – which is a prerequisite for a
modern precise crop management – sensor-based methods are of increasing
importance. Near-range sensors have the potential to identify field
heterogeneities of crop vigour. The objective of this analysis was to evaluate
the potential of a hyperspectral imaging system for a detection and
discrimination of stress factors in wheat. In greenhouse, hyperspectral imaging
data of drought-stressed, fungal infected and healthy wheat stands were acquired
by the SOC-700, a portable line-scanning push-broom imaging system. By testing
various data processing techniques, a detection and discrimination of stress
factors was possible.
McIDAS-V: a powerful data analysis and visualization tool for multi and
hyperspectral environmental satellite data (Paper Presentation)
Paper 7085-9 of Conference 7085
Authors(s): Thomas H. Achtor, Thomas D. Rink, Thomas M. Whittaker, David Parker,
Univ. of Wisconsin/Madison
Date: Tuesday, 12 August 2008
A project is underway at SSEC to develop the fifth generation of McIDAS, a
java-based, open-source system for multispectral and hyperspectral researchers
and algorithm developers that will provide powerful new data manipulation and
visualization tools. NASA EOS MODIS and AIRS data as well as MSG SEVERI and
METOP IASI data are now being used in conjunction with in situ and gridded data
to develop new analysis and product validation techniques in the McIDAS-V
environment. This new data analysis and visualization system will support both
researchers and operational users of the advanced measurement systems on NPOESS
and GOES R.
Multitemporal spectroscopy fro crop stress detection using band selection
methods (Paper Presentation)
Paper 7086-9 of Conference 7086
Authors(s): Thorsten Mewes, Jonas Franke, Univ. Bonn (Germany)
Date: Tuesday, 12 August 2008
A fast and precise sensor based identification of pathogen infestations on wheat
stands is essential for the implementation of site-specific fungicide
applications. This study focuses on band selection techniques on hyperspectral
data to identify relevant and redundant information in reflectance spectra in
respect to a detection of plant stress caused by pathogens. Daily spectral
measurements of healthy and pathogen infested wheat stands were taken over a two
weeks period with a sprectroradiometer under controlled environmental
conditions. Hyperspectral data connected with band selection methods for data
reduction promise fast precise information about pathogen infestations, which is
necessary for precision agriculture.
Spectral binning optimization for the ARTEMIS real-time processor (Paper
Presentation)
Paper 7086-26 of Conference 7086
Authors(s): Charles C. Wamsley, Ball Aerospace & Technologies Corp.
Date: Wednesday, 13 August 2008
The ARTEMIS hyperspectral sensor will be the first spaceborne hyperspectral
sensor with an on-board real-time processing (RTP) capability. The ARTEMIS RTP
utilizes both anomaly and material detection algorithms to locate materials of
potential interest. To satisfy the RTP timeline, the collected data must be
reduced from hundreds of bands to around 64 bins, where a bin can be a single
band or the average of a set of bands. During this presentation, spectral
binning results will be presented discussing how the material detection
algorithm can impact binning performance and whether single band or multi-band
spectral binning yields any detection advantage.
Can GIFTS capture vertical and temporal variability of a convective atmosphere?
(Paper Presentation)
Paper 7085-27 of Conference 7085
Authors(s): Haidao Lin, Xiaolei Zou, Florida State Univ.
Date: Thursday, 14 August 2008
Lack of high-resolution data that could resolve the vertical and temporal
variabilities of the atmosphere within convective systems has probably limited
the forecast skill of convective precipitation. The Geosynchronous Imaging
Fourier Transform Spectrometer (GIFTS), a new hyperspectral satellite
measurement system, could provide radiance observations with high-resolution in
spectral, horizontal and temporal spaces within a targeted domain. This study
aims at assessing potential values of this new hyperspectral radiance
measurements to convective precipitation forecast. Observed vertical profiles of
moisture and temperature during a convective initiation (CI) event within an
observing period of the International H2O Project (IHOP_2002) are used to
simulate GIFTS radiance measurements, which are compared with a mesoscale
numerical forecast.
Improved point target detection using local covariance matrices (Paper
Presentation)
Paper 7086-22 of Conference 7086
Authors(s): Stanley R. Rotman, Ben-Gurion Univ. of the Negev (Israel) and Solid
State Scientific Corp.; David Avraham, Nava Belogus, Ben-Gurion Univ. of the
Negev (Israel)
Date: Wednesday, 13 August 2008
Hyperspectral images are used for anomaly detection; the improvement over
broadband imagery is due to the available spectral information, converting a
two-dimensional image into a datacube. This paper deals with subpixel point
target detection.
Since the background is non-stationary, an improvement in the detection
performance can be achieved by segmentation. The objective of this paper is to
quantify in the algorithm the effect of using covariance matrices which are
derived from the segments or the more local environments in which the pixel can
be found.
Multi-channel cell gap measurement technique (Poster Presentation)
Paper 7063-44 of Conference 7063
Authors(s): Chih-Shang Liu, Kai-Ping Chuang, Yeou-Sung Lin, Industrial
Technology Research Institute (Taiwan)
Date: Wednesday, 13 August 2008
We propose a novel multi-channel cell gap measurement system which combines the
spectroscopic ellipsometry technique with the hyperspectral imaging spectrograph
for the multi-point sampling inspection. Our designed cell gap measurement
system is based on PSA setup (polarizer-sample-analyzer) to analyze transmission
spectrum for calculating phase retardation of liquid crystal (LC). In
particular, we use polarizing beam splitter to replace the analyzer to receive
two orthogonal states of polarizations at the same time for normalizing spectrum
to realize non-rotate mechanism.
Using AIRS and IASI data to evaluate absolute radiometric accuracy for climate
trending (Paper Presentation)
Paper 7085-3 of Conference 7085
Authors(s): Hartmut H. Aumann, Thomas S. Pagano, Jet Propulsion Lab.
Date: Tuesday, 12 August 2008
The AIRS, IASI and CRIS radiometric performance requirements were defined more
than a decade ago, largely driven by considerations of weather forecasting. For
the creation of multi-decadal data sets for climate trending using the
operational hyperspectral sounders from polar orbit the need to bridge across
multiple satellites has lead to much tighter absolute radiometric calibration
requirements. These are typically stated as 100 mK absolute, for the full range
of spectral temperatures encountered under global conditions. We analyze the
absolute radiometric calibration accuracy achieved by AIRS and IASI relative to
their nominal absolute radiometric performance requirements and 100 mK absolute
accuracy. Depending on the availability of thermal vacuum test results this
analysis can used predict the CRIS on-orbit absolute radiometric performance.
Liquid crystal tunable filters and polarization controllers for biomedical
optical imaging (Paper Presentation)
Paper 7050-23 of Conference 7050
Authors(s): Ofir Aharon, Avner Safrani, Riki Moses, Ibrahim Abdulhalim,
Ben-Gurion Univ. of the Negev (Israel)
Date: Tuesday, 12 August 2008
Liquid crystal devices have been largely developed for liquid crystal displays
and in the last decade for optical telecommunications, however their application
in the field of optical imaging just started to emerge. These devices can be
miniaturized thus have a great potential to be used with miniature optical
imaging systems for biomedical applications. Liquid crystal devices designed
specifically for integration into biomedical optical imaging systems will be
presented. Using a combination of one or two LC retarders we obtained
polarimetric imaging of the skin. LC tunable filters with high dynamic range and
large throughput are designed for hyperspectral imaging and for spectral domain
optical coherence tomography. The designs are based on several concepts both
using the classical stack of retarders and using more modern designs based on
single layer in a waveguide or in Fabry-Perot cavity.
Absolute radiometric calibration accuracy of the Atmospheric Infrared Sounder
(AIRS) (Paper Presentation)
Paper 7081-46 of Conference 7081
Authors(s): Thomas S. Pagano, Hartmut H. Aumann, Jet Propulsion Lab.; Kenneth R.
Overoye, BAE Systems
Date: Wednesday, 13 August 2008
The Atmospheric Infrared Sounder (AIRS) on the EOS Aqua Spacecraft was launched
on May 4, 2002. AIRS acquires hyperspectral infrared radiances in the 3.7-15.4
um spectral region with spectral resolution of better than 1200. The AIRS was
designed to measure small changes in the hydrological cycle and has demonstrated
in-flight exceptional radiometric and spectral stability and accuracy. This
accuracy is achieved in orbit by transferring the calibration from a Large Area
Blackbody to the on-board blackbody. The radiometric accuracy predictions for
AIRS based on the On-Board Calibrator, LABB, and pre-flight measurements give an
accuracy of <0.2K – 3 sigma.
Absolute radiometric calibration accuracy of the Atmospheric Infrared Sounder
(AIRS) (Paper Presentation)
Paper 7085-46 of Conference 7085
Authors(s): Thomas S. Pagano, Hartmut H. Aumann, Jet Propulsion Lab.; Kenneth R.
Overoye, BAE Systems
Date: Wednesday, 13 August 2008
The Atmospheric Infrared Sounder (AIRS) on the EOS Aqua Spacecraft was launched
on May 4, 2002. AIRS acquires hyperspectral infrared radiances in the 3.7-15.4
um spectral region with spectral resolution of better than 1200. The AIRS was
designed to measure small changes in the hydrological cycle and has demonstrated
in-flight exceptional radiometric and spectral stability and accuracy. This
accuracy is achieved in orbit by transferring the calibration from a Large Area
Blackbody to the on-board blackbody. The radiometric accuracy predictions for
AIRS based on the On-Board Calibrator, LABB, and pre-flight measurements give an
accuracy of <0.2K – 3 sigma.
Endmember search methods based on lattice autoassociative memories: a case study
on vegetation discrimination (Paper Presentation)
Paper 7073-58 of Conference 7073
Authors(s): Juan Carlos Valdiviezo-Navarro, Gonzalo Urcid-Serrano, Instituto
Nacional de Astrofísica, Óptica y Electrónica (Mexico); Gerhard X. Ritter, Univ.
of Florida
Date: Thursday, 14 August 2008
Recent developments, based on lattice autoassociative memories, have been
proposed as
novel and alternative techniques for endmember determination in hyperspectral
imagery.
The present paper discusses and compares three such methods using, as a case
study, the
generation of vegetation abundance maps by constrained linear unmixing. The
first method
uses the canonical min and max autoassociative memories as detectors for lattice
independence between pixel spectra; the second technique scans the image by
blocks and
selects candidate spectra that satisfies the strong lattice independence
criteria within
each block. The third method, based on the columns of the matrices that define
the min and max autoassociative memories, gives an approximation to endmembers
that do not always
correspond to pixel spectra; however, these endmembers form a high-dimensional
simplex
that encloses all pixel spectra.
Synergistic use of high spectral sounder and high spatial imager radiance
measurements for atmospheric profiling (Paper Presentation)
Paper 7085-39 of Conference 7085
Authors(s): Chian-Yi Liu, Jun Li, Elisabeth Weisz, Jinlong Li, Timothy J. Schmit,
Allen H. L.Huang, Univ. of Wisconsin/Madison
Date: Thursday, 14 August 2008
High spectral infrared (IR) sounder from low earth orbit (LEO) provides
temperature and moisture soundings with high accuracy and high vertical
resolution; however, due to its low temporal resolution, observations can be
obtained only 4 times every day in midlatitude and tropical regions from two LEO
satellites. High spatial resolution imager such as the Advanced Baseline Imager
(ABI) onboard the next generation of geostationary (GEO) satellite, one the
other hand, provides very fast coverage rate but lower vertical resolution and
less accurate legacy profiles. Combination of LEO hyperspectral IR sounder data
and GEO ABI measurements may provide atmospheric evolution with high temporal
resolution and fairly accuracy.
Intercalibration of GOES imagers with AIRS and IASI data (Poster Presentation)
Paper 7085-58 of Conference 7085
Authors(s): Yaping Li, Xiangqian Wu, National Oceanic and Atmospheric
Administration; Seung-hee Sohn, Korea Meteorological Administration (South
Korea)
Date: Wednesday, 13 August 2008
The Geostationary Observational Environmental Satellite (GOES) series of
satellites provide scientifically valuable images of weather phenomena with a
relatively high spatial and temporal resolution. Given the wide utility of the
GOES data in geophysical retrievals, climate studies, and radiance assimilation
for numerical weather prediction models, accurate and precise GOES radiance
measurements are important for data users, instrument manufactures, and
calibration scientists. The advent of hyperspectral sounders, such as the
Atmospheric Infrared Sounder (AIRS) and the Infrared Atmospheric Sounding
Interferometer (IASI), makes it possible for us to independently assess the
radiance measurements of GOES IR imagers, which also provide an effective way to
evaluate the GOES IR on-board calibration. In this study, we demonstrate the
utility of the AIRS and IASI radiances to evaluate the GOES IR channel
measurements. We use the AIRS and IASI measurements to inter-calibrate the IR
channels on GOES-12. The collocated GOES pixels inside each AIRS (IASI) pixel
are averaged spatially. Then the spatially-averaged radiance from GOES IR
channels are compared to AIRS (IASI) observations by convolving the AIRS (IASI)
measured spectra with the GOES imager spectral response functions. This study
demonstrates that the high-spectral resolution radiance measurements can serve
as a relative reference for the inter-calibration of operational GOES imagers
for the Global Space-based Inter-Calibration System (GSICS).
Remote Ultra-Low Light Imaging (RULLI) for space situational awareness (Paper
Presentation)
Paper 7094-8 of Conference 7094
Authors(s): Michael C. Roggemann, Michigan Technological Univ.; Kris Hamada,
Pacific Defense Solutions LLC; Rao Gudimetla, Kim Luu, Air Force Research Lab.
Date: Monday, 11 August 2008
Remote Ultra-Low Light Imaging (RULLI) detectors are photon limited detectors
developed at Los Alamos National Laboratories. RULLI detectors provide a very
high degree of temporal resolution for the arrival times of detected
photo-events, but saturate at a photo-detection rate of about 106 photo-events
per second. RULLI detectors have much lower quantum efficiency (approximately
5%) than CCDs (order of 80%). As a result of these factors, and the associated
analyses of signal and noise, we have found that RULLI detectors can play two
key new roles in SSA: passive imaging of exceedingly dim objects, and
three-dimensional imaging of objects illuminated with an appropriate pulsed
laser.
Zombie algorithms: a remote sensing systems engineering design tool (Paper
Presentation)
Paper 7087-9 of Conference 7087
Authors(s): Philip E. Ardanuy, Raytheon Co.; Dylan Powell, Lockheed Martin Corp.
Date: Monday, 11 August 2008
In modern horror fiction, zombies are generally undead corpses brought back from
the dead by supernatural or scientific means, and are rarely under anyone’s
direct control. They typically have very limited intelligence, and hunger for
the flesh of the living. Experience on remote sensing science data systems
suggests the benefits of “plug-n-play” concepts of operation. The concept, while
intuitively simple, can be challenging to implement in practice. The use of
zombie algorithms—empty shells that outwardly resemble the form, fit, and
function of a “complete” algorithm without the implemented theoretical
basis—provides ground system advantages equivalent to sensor engineering models.
System engineering studies for advanced geosynchronous remote sensors (Paper
Presentation)
Paper 7087-16 of Conference 7087
Authors(s): Jeffery J. Puschell, Raytheon Space & Airborne Systems
Date: Monday, 11 August 2008
This paper describes system engineering design studies for geosynchronous remote
sensors that are based on simplified hardware architectures derived from
advanced technology. These studies were guided by environmental data
requirements for operational weather, climate and other earth science studies.
Design of the stereoscopic eye-tracking system for quantative remote sensing
applications (Paper Presentation)
Paper 7087-20 of Conference 7087
Authors(s): Aleksandr V. Sergeyev, Eugene Levin, Michigan Technological Univ.;
Gennady Gienko, Univ. of the South Pacific (Fiji)
Date: Monday, 11 August 2008
Information obtained from eye-movement can be utilized in many ways for remote
sensing applications such as geospatial image analysis and interpretation. There
are various eye-tracking systems available on the market; however none of them
is designed to work with stereoscopic imagery. The paper outlines optical
solutions to prototype the eye-tracking system designed for stereoscopic
geospatial image analysis. In this work we explore different approaches and
designs base on the optical separation method to provide the most suitable and
non-intrusive scheme for stereoscopic image viewing in the eye-tracking systems
to observe and analyze 3D visual models.
Multi-wavelength lidar for remote sensing applications (Poster Presentation)
Paper 7081-49 of Conference 7081
Authors(s): Shalei Song, Pingxiang Li, Wei Gong, Liangpei Zhang, Wuhan Univ.
(China)
Date: Monday, 11 August 2008
No description available
Novel laser approach for remote sensing of atmospheric CO2 column (Poster
Presentation)
Paper 7081-54 of Conference 7081
Authors(s): Elena M. Georgieva, Emily L. Wilson, William S. Heaps, NASA Goddard
Space Flight Ctr.
Date: Monday, 11 August 2008
We present preliminary experimental results, sensitivity measurements and
discuss our new CO2 lidar system under development. The system is employing an
erbium-doped fiber amplifier (EDFA), superluminescent light emitting diode
(SLED) as a source and our previously developed Fabry-Perot interferometer
subsystem as a detector part.
Global measurement of carbon dioxide column with the aim of discovering and
quantifying unknown sources and sinks has been a high priority for the last
decade. The goal of Active Sensing of CO2 Emissions over Nights, Days, and
Seasons (ASCENDS) mission is to significantly enhance the understanding of the
role of CO2 in the global carbon cycle. The National Academy of Sciences
recommended in its decadal survey that NASA put in orbit a CO2 lidar to satisfy
this long standing need. Existing passive sensors suffer from two shortcomings.
Their measurement precision can be compromised by path length uncertainties
arising from scattering within the atmosphere. Also passive sensors using
sunlight cannot observe the column at night. Both of these difficulties can be
ameliorated by lidar techniques.
Lidar systems present their own set of problems however. Temperature changes in
the atmosphere alter the cross section for individual CO2 absorption features
while the different atmospheric pressures encountered passing through the
atmosphere broaden the absorption lines. Currently proposed lidars require
multiple lasers operating at multiple wavelengths simultaneously in order to
untangle these effects.
Our current goal is to develop an ultra precise, inexpensive new lidar system
for precise column measurements of CO2 changes in the lower atmosphere that uses
a Fabry-Perot interferometer based system as the detector portion of the
instrument and replaces the narrow band laser commonly used in lidars with the
newly available high power SLED as the source. This approach reduces the number
of individual lasers used in the system from three or more to one—considerably
reducing the risk of failure. It also tremendously reduces the requirement for
wavelength stability in the source putting this responsibility instead on the
Fabry-Perot subsystem.
Remote phosphor LED modules for general illumination (Paper Presentation)
Paper 7058-20 of Conference 7058
Authors(s): Christoph G. A.Hoelen, Huub Borel, Philips Lighting B.V.
(Netherlands); Paul Deeben, Philips Lighting BV (Netherlands); Jan de Graaf,
Rene Hendriks, Matthijs Keuper, Martijn Lankhorst, Claudia Mutter, Rene Wegh,
Lars Waumans, Philips Lighting B.V. (Netherlands)
Date: Tuesday, 12 August 2008
Due to scattering of light in white LEDs, a relative large fraction of light is
absorbed in the package. We report on the performance of remote phosphor LED
modules for general illumination, and compare the system performance with that
of alternative concepts with the downlight application as a carrier. The remote
phosphor concept shows superior system efficiency, and enables the application
of a wider range of phosphors. A high CRI can be obtained in the complete color
temperature range of 2700 to 4000 K, while the conversion efficiency from blue
to white light is significantly better than for modules based on white LEDs with
identical die performance.
Guidelines on pre-launch characterization and calibration of infrared
instruments for remote sensing (Paper Presentation)
Paper 7082-26 of Conference 7082
Authors(s): Raju Datla, National Institute of Standards and Technology
Date: Wednesday, 13 August 2008
The pre-launch characterization and calibration of remote sensing instruments
should be planned and carried out in conjunction with their design and
development to meet the mission requirements. In the case of infrared
instruments the onboard calibrators such as blackbodies and the sensors such as
spectral radiometers should be characterized and calibrated using SI traceable
standards. This allows intercomparison and intercalibration of different sensors
in space to create global time series of climate records of high accuracy where
some inevitable data gaps can be easily bridged. Examples of infrared standards
and calibration facilities at NIST for serving remote sensing community will be
discussed.
Dramatically reducing on-orbit remote sensing uncertainty: implications of an
error analysis (Paper Presentation)
Paper 7081-36 of Conference 7081
Authors(s): Mark C. Helmlinger, Butch Miller, Herbert C. Bitting, Northrop
Grumman Space Technology
Date: Wednesday, 13 August 2008
In this era of quantifying the consequences of climate change and honing climate
model predictions, remote sensing end-user feedback calls for unprecedented
on-orbit calibration requirements. As well, on-orbit calibration to absolute
standards is necessary for the degree of pan-platform data integration and
synthesis needed to further refine Level 3 environmental trend analyses. It is
anticipated that at least an order-of-magnitude improvement in on-orbit
uncertainty is required to fulfill the needs of the climate change community.
NGST has initiated a study into the relative measure of uncertainty of methods
and applications used in the state-of-the-art of calibrating observational
instruments.
Character analysis of urban heat island in Shanghai City using remote sensing
(Paper Presentation)
Paper 7083-5 of Conference 7083
Authors(s): Jiong Shu, Zhigang Chen, East China Normal Univ. (China)
Date: Wednesday, 13 August 2008
In this paper, the land surface temperature is retrieved with split window
algorithm, the vegetation index and surface albedo are extracted based on the
EOS/MODIS data. The main results are summarized as follows:
1. Under the proper weather conditions, the intensity of the heat island at
night is stronger than its counterpart during the day in winter, and vice versa.
2. The distribution of the surface high temperature area changes with the
different characters of the underlying surface and the types of land use.
3. Obvious negative relationship exists between land temperature and surface
albedo, as well as vegetation index.
A new quality assessment index for compressed remote sensing image (Paper
Presentation)
Paper 7075-23 of Conference 7075
Authors(s): Liang Zhai, Chinese Academy of Surveying and Mapping (China)
Date: Wednesday, 13 August 2008
Quality assessment for remote sensing image compression is of great significance
in many practical applications. A comprehensive index based on muti-dimensional
structure model was designed for image compression assessment, which consists of
gray character distortion dimension, texture distortion dimension, loss of
correlation dimension. Based on this model, a new comprehensive image quality
index-Q was proposed. In order to assess the agreement between our comprehensive
image quality index Q and human visual perception, we conducted subjective
experiments in which observers ranked reconstructed images according to
perceived distortion. For comparison, PSNR is introduced. The experiments showed
that Q had a better consistency with subjective assessment results than
conventional PSNR.
Iridium NEXT partnership for Earth observation: exploiting global satellite
constellations for new remote sensing capabilities (Paper Presentation)
Paper 7087-24 of Conference 7087
Authors(s): Om P. Gupta, Don Thoma, Iridium Satellite LLC
Date: Wednesday, 13 August 2008
A unique opportunity exists to host up to 66 earth observation sensors on the
Iridium NEXT LEO constellation in a manner that can revolutionize earth
observation and weather predictions. A constellation approach to sensing, using
the real-time communications backbone of Iridium, will enable unprecedented
geospatial and temporal sampling for now-casting of weather on a global basis as
well as global climate monitoring.
The opportunity is proposed as a Public-Private Partnership (PPP) allowing for
the sharing of infrastructure by government agencies. This has the potential to
augment current and planned climate and weather observation programs in a very
cost effective manner not achievable in any other way. Iridium, with the
assistance of the Group on Earth Observations (GEO), NASA, NOAA, and ESA, has
evaluated a number of sensing missions that would be a good fit to the Iridium
NEXT constellation.
Intelsat as a commercial asset for future remote sensing systems (Paper
Presentation)
Paper 7087-25 of Conference 7087
Authors(s): Gerry Jansson, Intelsat Global Service Corp.
Date: Wednesday, 13 August 2008
The Global War on Terror, program overruns, and increasing demand for new
capabilities has placed an ever increasing strain on National Space Assets, from
communications satellites to earth and space observing systems. It has also
created an opportunity. With the goal of increasing the number and capability of
space payloads, at reduced costs from dedicated systems, the concept of "Hosted
Payloads" has recently been held as an example of how the government can do
things differently and focus on capabilities, not systems. The Hosted Payload
concept infers that a commercial spacecraft is used as a platform on which a
secondary payload is provided access to space by sharing the costs of the bus,
launch, and insurance with the primary mission. This paper describes the Hosted
Payload vision and strategy, and the specific requirements for access to space.
Land surface variables and vegetation variables estimated from satellite remote
sensing over the Tibetan Plateau (Paper Presentation)
Paper 7083-10 of Conference 7083
Authors(s): Jianmao Guo, Shuanghe Shen, Shoudong Liu, Nanjing Univ. of
Information Science & Technology (China)
Date: Wednesday, 13 August 2008
The Tibetan Plateau, with one million square kilometers area and the averaged
altitude of about 4000m, plays a very important role in the Asian monsoon
circulation, and the global climate change. Studying on the land surface
variables and vegetation variables over heterogeneous landscape of the Tibetan
Plateau area, the utilization of satellite remote sensing is indispensable. In
this study, methods based on the remote sensing data are proposed and tested for
deriving the regional land surface variables and vegetation variables over
heterogeneous landscapes. The distributions of surface reflectance, surface
temperature, NDVI, MSAVI, vegetation coverage and LAI over heterogeneous
landscape of the Tibetan Plateau area are derived.
Scalable low complexity image coder for remote volume visualization (Paper
Presentation)
Paper 7073-44 of Conference 7073
Authors(s): Hariharan G. Lalgudi, Michael W. Marcellin, Ali Bilgin, The Univ. of
Arizona; Mariappan S. Nadar, Siemens Corporate Research
Date: Wednesday, 13 August 2008
Remote visualization of volumetric medical images has gained importance over the
past few years in order to realize the full potential of tele-radiology. Volume
visualization is a computationally intensive process, often
requiring hardware acceleration to achieve real-time viewing experience. Hence,
a remote visualization model that is well-suited for high speed networks would
be to transmit the rendered images (with dedicated hardware) from the server
based on view point requests from clients. In this regard, a compression scheme
for the rendered
images is vital for efficient utilization of the server-client bandwidth. Also,
the complexity of the decompressor should be low so that low-end clients can
decode images at the desired frame rate. Thus, we present a new, fast and
efficient image codec designed for interactive transmission of volume rendered
images.
Remote triggering of high voltage systems by laser induced plasmas (Paper
Presentation)
Paper 7070-16 of Conference 7070
Authors(s): Nicholas J. West, Ian R. Jandrell, Univ. of the Witwatersrand (South
Africa); Andrew Forbes, Council for Scientific and Industrial Research (South
Africa)
Date: Wednesday, 13 August 2008
The formation of a laser-induced plasma was first observed by Maker, Terhume and
Savage in 1963. The fact that a plasma could be generated by focusing a laser
beam by means of a lens resulted in great interest in the field of
laser-triggering of spark gaps.
In spark gap triggering applications, an orthogonal or coaxial spark gap
arrangement can be used. In the coaxial case, the laser beam is directed along
the axis of the gap whereas in the orthogonal arrangement, the beam is at right
angles to the gap axis. In this paper experiments are presented on the
orthogonal and coaxial arrangements, and the impact this has on the breakdown
voltage of various gap sizes and gap arrangements. Results on the three-way
interaction of the laser beam – plasma – discharge is also presented and
discussed. The results of this investigation will provide useful insight for the
development of simple and efficient remote laser-triggering strategies.
Applying remote sensing techniques into crop emergency monitoring (Poster
Presentation)
Paper 7085-50 of Conference 7085
Authors(s): Yanbo He, National Meteorological Ctr. (China); Jingwen Guo,
Wageningen Univ. (Netherlands); Huanping Wu, National Meteorological Ctr.
(China)
Date: Wednesday, 13 August 2008
No description available
Progress towards the remote sensing of aircraft icing hazards (Poster
Presentation)
Paper 7088-19 of Conference 7088
Authors(s): Andrew L. Reehorst, David Brinker, NASA Glenn Research Ctr.; Marcia
Politovich, David Serke, National Ctr. for Atmospheric Research; Charles
Ryerson, U.S. Army Corps of Engineers; Andrew Pazmany, ProSensing Inc.;
Frederick Solheim, Radiometrics Corp.
Date: Wednesday, 13 August 2008
NASA has teamed with the FAA, DoD, industry, and academia for research into the
remote detection and measurement of atmospheric conditions leading to aircraft
icing hazards. The ultimate goal of this effort is to provide pilots,
controllers, and dispatchers sufficient information to allow aircraft to avoid
or minimize their exposure to the hazards of in-flight icing. Ground-based icing
remote sensing relies upon radar, lidar, and multi-frequency microwave
radiometry. Airborne concepts include multi-frequency radiometry and
multi-frequency radar. Ground-based systems are envisioned as providing hazard
detection in airport terminal regions while airborne systems will be needed to
provide flight path coverage between terminal regions.
Remote counseling using HyperMirror quasi space-sharing system (Poster
Presentation)
Paper 7073-84 of Conference 7073
Authors(s): Sayuri Hashimoto, Univ. of Tsukuba (Japan); Osamu Morikawa, National
Institute of Advanced Industrial Science and Technology (Japan); Nobuyuki
Hashimoto, Citizen Technology Ctr. Co., Ltd. (Japan); Takanori Maesako, Osaka
Univ. (Japan)
Date: Wednesday, 13 August 2008
A practical remote-supporting system of guidance and counseling in health
medicine, education or welfare have started thank to the high-speed and low cost
internet. In the research, we will report the remote-counseling using
HyperMirror systems which can give virtual sharing spaces. We added information
of the sense of touch other than visual or auditory that aimed improvements on
the remote-supporting.Three volunteers of this experiment estimated that this
system was acceptable for practical use. A volunteer felt that she could
eliminate the anxiety and got ease after observing the HyperMirror images that
remote counselor whispered in and hugged her warmly.
Remote sensing-based research of urban thermodynamic landscape heterogeneity and
heat environment (Poster Presentation)
Paper 7083-60 of Conference 7083
Authors(s): Jia Yi, Yongzhong Tian, Southwest Univ. (China)
Date: Wednesday, 13 August 2008
This paper uses Landsat TM/ETM+ images in 1988、2001 and 2006, combined with the
observing data from automatic meteorological stations, to detect the spatial
pattern and temporal change of urban thermal environment in core urban area of
Chongqing. Thermodynamic landscape heterogeneity model is used to analyze the
spatial structure and pattern of urban thermal environment from 1988 to 2006.
This study shows that the urban heat island effect is strongly correlated with
the land cover and that increasing green area and lakes might be the effective
ways to weaken the negative affect of urban heart island effect.
The application of Modified Perpendicular Drought Index (MPDI) method in drought
remote sensing monitoring (Poster Presentation)
Paper 7083-58 of Conference 7083
Authors(s): Huailiang Chen, Hongwei Zhang, Henan Institute of Meteorological
Science (China); Xuefen Zhang, Yanxia Zhao, Chinese Academy of Meteorological
Sciences (China); Shuanghe Shen, Nanjing Univ. of Information Science &
Technology (China); Zixuan Du, Zhongyang Liu, Chunhui Zou, Henan Institute of
Meteorological Science (China)
Date: Wednesday, 13 August 2008
Soil moisture and Vegetation status are the most direct and important indication
of drought, so the spectral interpreting of vegetation and soil is most
important in drought estimation. Using the MODIS image to calculate
Perpendicular Drought Index and Modified Perpendicular Drought Index in various
periods, and compared them with the observation data in-situ. The result showed
that the PDI and the MPDI is highly accordant with in-situ drought value with
the higher correlation found between the MPDI and an in-situ drought index
derived from 0~20 cm mean soil moisture. The results showed that the PDI and the
MPDI provide quite similar results for bare soil surfaces, especially in the
early stages of vegetation growth.
The Fog Remote Sensing And Modeling (FRAM) field project: visibility analysis
and remote sensing of fog (Paper Presentation)
Paper 7088-2 of Conference 7088
Authors(s): Ismail Gultepe, Environment Canada (Canada); Patrick Minnis, NASA
Langley Research Ctr.; Jason Milbrandt, Stewart G. Cober, George A. Isaac,
Environment Canada (Canada); Louis Nguyen, NASA Langley Research Ctr.; Bjarne
Hansen, Patrick King, Environment Canada (Canada); Gary Ellrod,
Date: Thursday, 14 August 2008
Remote detection and diagnosis of thunderstorm turbulence (Paper
Presentation)
Paper 7088-3 of Conference 7088
Authors(s): John K. Williams, Robert D. Sharman, Jason A. Craig, Gary E.
Blackburn, National Ctr. for Atmospheric Research
Date: Thursday, 14 August 2008
Under FAA and NASA funding, a new capability for providing real-time assessments
of thunderstorm-induced turbulence for aviation users is being developed. The
NEXRAD Turbulence Detection Algorithm (NTDA) provides in-cloud turbulence
intensity measurements, and operational radar, satellite and lightning data are
used in conjunction with numerical weather model data to infer turbulence
location and severity in the near-storm environment. Data fusion is accomplished
using a machine learning technique tuned using automated in-situ turbulence
reports from commercial aircraft. This research is designed to enhance US and
international turbulence decision support systems and contribute to the planned
NextGen 4-D weather database.
Sea roughness remote sensing from the sun’s glitter (Paper Presentation)
Paper 7085-37 of Conference 7085
Authors(s): Viktor Titov, Institute of Applied Physics (Russia)
Date: Thursday, 14 August 2008
It is known that the sun glitter area most often visible on sea images from
airplane or space is very useful for remote sensing of sea surface roughness.
The glint intensity and pattern is directly related to the wave slope
probability function. The long surface waves appear on the edge of a sun glitter
area. Its visibility is related with distribution of glints along the wave
profile. The model of long surface waves visibility on sea surface using
twoscale approach of sea roughness and taking into account shadowing of sea
slopes under grazing angles is developed and method for retrieval of spectra of
such waves is proposed. The accuracy of retrieving of long surface wave spectra
is evaluated. The example of sea surface image made during the flight of the
helicopter above Gorky Sea and its processing is shown.
Dual-source remote sensing model for estimating land surface evapotranspiration
and its application in North China Plain (Poster Presentation)
Paper 7083-23 of Conference 7083
Authors(s): Chaoshun Liu, Institute of Geographical Sciences and Natural
Resources Research (China)
Date: Wednesday, 13 August 2008
Based on the theory of linear dual-source evapotranspiration(ET) model,this
paper develops a remote sensing model for estimating the land surface ET.The
remote sensing model has two characteristics:(1)simplify the VITT method and
improve the accuracy of determining soil water status in North China
Plain,and(2)introduce the dual-source model in calculating land surface ET and
improve the calculation accuracy of the mixed pixels.The remote sensing model is
applied for calculating the land surface ET about a 1000 km2 in North China
Plain by using Modis images during the period 2005-2006.It is illustrated that
the remote sensing model based on dual-source linear concept call get good
estimates when applied in Shandong area.
Calculation of light use efficiency from net ecosystem CO2 fluxes for
remotely-sensed estimates of primary production in corn and soybean (Paper
Presentation)
Paper 7083-9 of Conference 7083
Authors(s): E. Raymond Hunt, Jr., Paul C. Doraiswamy, John H. Prueger, Jerry L.
Hatfield, USDA Agricultural Research Service
Date: Wednesday, 13 August 2008
The objective of this study was to calculate light use efficiency from daily net
CO2 flux and the amount of daily absorbed photosynthetically active radiation
(PAR). The Soil Moisture Experiment 2005 (SMEX’05) was conducted in Walnut Creek
Watershed near Ames IA, during which eddy-correlation towers were used to
measure net CO2 fluxes various fields of corn and soybean. Comparison to NASA
Terra Moderate Resolution Imaging Spectroradiometer (MODIS) standard data
products show that the differences in net carbon flux over the Iowa region have
significant differences, which could be important for the monitoring the global
carbon budget.
Dynamic monitoring of urban expansion and land use change in Taian City based on
remotely-sensed images (Poster Presentation)
Paper 7083-19 of Conference 7083
Authors(s): Xiaoyan Zhou, Institute of Geographical Sciences and Natural
Resources Research (China)
Date: Wednesday, 13 August 2008
Urban has changed the landscape of the Earth with unexpreeding speed. On one
hand, the rapid expansion of urban resulted in the change of the regional
landscape, on the other hand, it made the regional environment worser and worser.
All of these changes make an important impact on urban long-term and sustainable
development.
This study takes Taian city of Shandong Province as an example. Based on three
satellite images of Landsat TM/ETM+ and with the help of GIS technology and scio-economic
data, we monitor and analyse the urbanization process of Taian city during the
reform period from 1987 to 2005.
Further evaluation of the WVSS-II moisture sensor using co-located in-situ and
remotely-sensed observations (Paper Presentation)
Paper 7088-13 of Conference 7088
Authors(s): Ralph A. Petersen, Sarah Bedka, Wayne Feltz, Erik Olson, Univ. of
Wisconsin/Madison
Date: Thursday, 14 August 2008
The laser-diode based Water Vapor Sensing System (WVSS-II) is being deployed on
US commercial aircraft. The paper discusses the latest objective WVSS-II
assessment, both of the accuracy of the humidity data and determining how best
to use these data to supplement to other upper-air reports. About 5 rawinsonde/WVSS-II
co-locations (within 1 hour and 50 km) were obtained daily during a 2 week
period in November 2006 in Louisville KY, including Temperature, Wind, and
Humidity. Results of ascent data showed generally excellent agreement,
especially in the lower troposphere, with RMS fits <0.5 g/kg for mixing ratio
(<10% for relative humidity).
Multifunctional imaging systems (Paper Presentation)
Paper 7096-2 of Conference 7096
Authors(s): Keith L. Lewis, Electro Magnetic Remote Sensing Defence Technology
Ctr. (United Kingdom)
Date: Sunday, 10 August 2008
Increased levels of emphasis are being placed on the need for multifunctional
imaging systems. To some extent these are being driven by the form factors of
military platforms, whilst in others they are driven by explicit requirements
associated with the operational context in which those platforms are fielded.
This paper explores the feasibility of fielding multifunctional imaging systems
on small airborne platforms covering a wide electromagnetic spectrum (RF to EO).
A review is presented of the state-of-the-art for compact multi-mode systems,
with some emphasis on the benefits that multi-spectral EO systems provide in
relation to improved target recognition.
Using MODIS imagery for improving AVHRR geolocation (Paper Presentation)
Paper 7085-22 of Conference 7085
Authors(s): Konstantin V. Khlopenkov, Alexander P. Trishchenko, Canada Ctr. for
Remote Sensing (Canada)
Date: Wednesday, 13 August 2008
To improve the AVHRR geolocation for historical time series, a new AVHRR image
processing system, CAPS (Canadian AVHRR Processing System), has been developed
at CCRS in the framework of climate change project and CEOS Climate Action Plan.
A new system takes advantage of high accuracy of MODIS image geolocation with
250 m resolution. Preliminary analysis has shown that the accuracy in image
georeferencing is within ±1/3 pixel along and across the scan direction. The
developed system is now employed for re-processing the entire AVHRR 1-km archive
assembled at CCRS starting from AVHRR NOAA-6.
Using MODIS imagery for improving AVHRR geolocation (Paper Presentation)
Paper 7081-22 of Conference 7081
Authors(s): Konstantin V. Khlopenkov, Alexander P. Trishchenko, Canada Ctr. for
Remote Sensing (Canada)
Date: Wednesday, 13 August 2008
To improve the AVHRR geolocation for historical time series, a new AVHRR image
processing system, CAPS (Canadian AVHRR Processing System), has been developed
at CCRS in the framework of climate change project and CEOS Climate Action Plan.
A new system takes advantage of high accuracy of MODIS image geolocation with
250 m resolution. Preliminary analysis has shown that the accuracy in image
georeferencing is within ±1/3 pixel along and across the scan direction. The
developed system is now employed for re-processing the entire AVHRR 1-km archive
assembled at CCRS starting from AVHRR NOAA-6.
Two methods for the absolute calibration of SZ-3 CMODIS sensors and their
comparison based on Dunhuang test size (Paper Presentation)
Paper 7081-23 of Conference 7081
Authors(s): Xuan Li, National Meteorological Ctr. (China); Zhifeng Guo,
Institute of Remote Sensing Applications (China)
Date: Wednesday, 13 August 2008
In this paper two different approaches are used and compared for absolute
radiometric calibration of the seven reflective channels of the SZ-3 CMODIS
sensor. One Method is radiometric cross-calibration in which achieves a
calibration by reference to another satellite sensor that acquired imagery on
the same day as the CMODIS overpass, it differs significantly from the second
approach in that no ground reflectance and atmospheric measurements are needed
on overpass day. The other method is the reflectance-based calibration in which
ground reflectance and atmospheric measurements are needed on overpass day.
Two methods for the absolute calibration of SZ-3 CMODIS sensors and their
comparison based on Dunhuang test size (Paper Presentation)
Paper 7085-23 of Conference 7085
Authors(s): Xuan Li, National Meteorological Ctr. (China); Zhifeng Guo,
Institute of Remote Sensing Applications (China)
Date: Wednesday, 13 August 2008
In this paper two different approaches are used and compared for absolute
radiometric calibration of the seven reflective channels of the SZ-3 CMODIS
sensor. One Method is radiometric cross-calibration in which achieves a
calibration by reference to another satellite sensor that acquired imagery on
the same day as the CMODIS overpass, it differs significantly from the second
approach in that no ground reflectance and atmospheric measurements are needed
on overpass day. The other method is the reflectance-based calibration in which
ground reflectance and atmospheric measurements are needed on overpass day.
McIDAS-V applications: multi- and hyper-spectral analysis and visualization
(Paper Presentation)
Paper 7085-10 of Conference 7085
Authors(s): Thomas D. Rink, Thomas H. Achtor, Thomas M. Whittaker, Univ. of
Wisconsin/Madison
Date: Tuesday, 12 August 2008
McIDAS-V, the next generation McIDAS, is being developed here at SSEC and is
aimed at the data analysis and visualization requirements for the next
generation
research and operational Earth observing systems. McIDAS-V will have an emphasis
on
remote sensing analysis and visualization with keen focus on NPOESS and GOES-R,
and
provide extended HYDRA capabilities. HYDRA is an interactive visualization and
analysis tool developed to explore and research multi- and hyper-spectral
satellite data. It is used extensively around the world in the education and
training of remote sensing scientists, as well as, in the development of remote
sensing applications.
Fielding of a time-resolved tomographic diagnostic (Poster Presentation)
Paper 7061A-32 of Conference 7061A
Authors(s): Daniel Frayer, Brian Cox, Wendi Dreesen, Douglas Johnson, Morris
Kaufman, National Security Technologies, LLC
Date: Wednesday, 13 August 2008
A diagnostic instrument has been developed for the acquisition of high-speed
time-resolved images for the creation of time histories of an electron beam.
Four optical subsystems employ cylindrical optics to image an x-ray target in
one direction and collapse light in the orthogonal direction. Each of the four
images and collapses in unique axes, thereby capturing unique information. Light
is relayed via optical fiber to streak cameras. Software reconstructs the
original image from the four collapsed images. The instrument can be operated
remotely to adjust optical parameters and can be remotely calibrated. The
instrument was deployed and calibrated, and has been used to capture and
reconstruct images. Matters of alignment, calibration, control, resolution,
adverse conditions and maintenance will be discussed.
Observational considerations for moderate resolution nighttime lights (Paper
Presentation)
Paper 7081-23 of Conference 7081
Authors(s): Christopher D. Elvidge, National Oceanic and Atmospheric
Administration; Donald R. Pettit, NASA Johnson Space Ctr.; Marc L. Imhoff, NASA
Goddard Space Flight Ctr.; Ramakrishna Nemani, NASA Ames Research Ctr.; Dee
Pack, The Aerospace Corporation
Date: Tuesday, 12 August 2008
Traditional optical remote sensing systems focus on the detection of reflected
sunlight. What changes if the objective is the detection of lighting present at
the Earth's surface, the discrimination of lighting types and the measurement of
development growth rates? This paper will discuss the rationale for such
observation and what can be concluded regarding the sensing requirements based
on field spectra, airborne remote sensing data, and digital camera imagery from
the International Space Station.
Low-noise InGaAs-balanced p-i-n photoreceiver for space-based remote sensing
applications at 2-micron wavelength (Paper Presentation)
Paper 7095-15 of Conference 7095
Authors(s): Abhay M. Joshi, Donald A. Becker, Shubhashish Datta, Discovery
Semiconductors, Inc.
Date: Monday, 11 August 2008
Space based LIDAR sensors require very low sensitivity in order to detect weak
backscattered signals. This is enabled by using balanced coherent detection. We
demonstrate a low-noise InGaAs balanced p-i-n photoreceiver at 2 micron
wavelength. The photoreceiver is comprised of a matched pair of p-i-n
photodiodes having a responsivity of 1A/W that is coupled to transimpedance
amplifier having 24dB RF gain and 19pA/√Hz input equivalent noise at 300K. The
photoreceiver demonstrates a 3dB bandwidth of 200MHz and provides LIDAR sensors
with 20-30m resolution. The photoreceiver exhibits common mode rejection ratio
of 30dB and optical power handling of 3dBm per photodiode.
Comparisons between state-of-the-art HgCdTe/Si and HgCdTe/CdZnTe infrared FPAs
for remote sensing applications (Paper Presentation)
Paper 7082-16 of Conference 7082
Authors(s): David A. Buell, Raytheon Vision Systems
Date: Monday, 11 August 2008
HgCdTe/Si grown by molecular beam epitaxy (MBE) has competitive performance and
can be produced in significantly larger sizes for lower cost than HgCdTe/CdZnTe
grown by either MBE or liquid phase epitaxy (LPE).
The reduction of defect densities, and achieving both high QE and R0A in HgCdTe/Si
detectors makes MBE on Si NEI, Response uniformity, and cluster performance
competitive with HgCdTe/CdZnTe FPAs produced from LPE-grown materials. Larger
format single–piece IRFPA HgCdTe/Si detector die greater than 10 cm on a side
can be fabricated on 15 cm–diameter substrate wafers.
Both MBE-grown HgCdTe/Si and LPE-grown HgCdTe/CdZnTe IRFPAs discussed in this
paper have a broad spectral response from 1.5-5.1 µm with quantum efficiencies >
80%, low NEI, and operability exceeding 98%.
New differential Fabry-Perot radiometer for remote sensing measurements of
column CO2, O2, H2O and other atmospheric trace gases (Paper Presentation)
Paper 7081-18 of Conference 7081
Authors(s): William S. Heaps, Emily L. Wilson, Elena M. Georgieva, NASA Goddard
Space Flight Ctr.
Date: Monday, 11 August 2008
A new type of remote sensing instrument based upon the Fabry-Perot
interferometric technique has been developed at NASA’s Goddard Space Flight
Center. The instrument detects the absorption of various atmospheric trace gases
in direct or reflected sunlight. It can be used as ground based, airborne and
satellite sensor for gases such as carbon dioxide , oxygen and water vapor . Our
recent long term experimental data on CO2 and O2 detection in atmosphere will be
presented and discussed
A study on the spatio-temporal characteristics and mechanism of landuse
evolvement with urban renewal and expansion in Shanghai based on mixed-pixel
classification for remote sensing imagery (Poster Presentation)
Paper 7083-30 of Conference 7083
Authors(s): Xiaoyan Dai, Zhongyang Guo, Jianping Wu, East China Normal Univ.
(China)
Date: Wednesday, 13 August 2008
In this paper, we propose a possibilistic c repulsive medoids (PCRMdd) algorithm
which is applied to generate a set of fraction images, each displaying the
proportion of a certain land cover class within each pixel. The results obtained
on multi-temporal Landsat ETM images of Shanghai city in China reveal spatio-temporal
characteristics and mechanism of Shanghai landuse evolvement from 1989 to 2005,
the amount and spatial pattern in landuse transformation with urban renewal and
expansion indicate the improvement of ecological environment step by step
nowadays, and besides, PCRMdd represents a robust and efficient tool for
mixed-pixel classification in remote sensing image.
An application of satellite remote sensing to coastal topography generation: a
case study in Chongming Island in Shanghai (Poster Presentation)
Paper 7083-32 of Conference 7083
Authors(s): Xiaohu Zhang, Zhongyang Guo, East China Normal Univ. (China)
Date: Wednesday, 13 August 2008
The aim of this article is to elaborate the method of constructing the coastal
near shore topography of Chongming Island by using image processing techniques
with optical satellite images. And it includes two main components. The first is
to extract the entire waterline of Chongming Island, the second is to construct
the regional tidal flat DEM.The result indicated that the method we used to
construct the coastal near shore topography of Chongming Island is viable, and
the precision of the DEM of Dongtan is acceptable.
Study on models for monitoring of above ground biomass about Bayinbuluke
grassland assisted by remote sensing (Poster Presentation)
Paper 7083-27 of Conference 7083
Authors(s): Xiaoming Cao, Graduate Univ. of Chinese Academy of Sciences (China)
Date: Wednesday, 13 August 2008
Using the CBERS data in August,2005 and the corresponding measured grass yield
data from 15 samples in the region of Bayinbuluke grassland, we established the
linear regression models、the non-linear regression models to express the
relationship between grassland biomass and the vegetation indices. Finally, The
results show that: the comparison of different forms shows that the logarithm
equation is the best one in terms of the suitability of use in study area and
the non-linear regression Y=-1242.2MSAVI3+6254.1MSAVI2-10044MSAVI+5267 is the
best model which can be used in monitoring grassland biomass based on the
vegetation indices in the region of Bayinbuluke grassland.
The use of x-band radar to support the detection of in-flight icing hazards by
the NASA icing remote sensing system during AIRS-II (Paper Presentation)
Paper 7088-14 of Conference 7088
Authors(s): David J. Serke, Marcia Politovich, National Ctr. for Atmospheric
Research; Andrew L. Reehorst, NASA Glenn Research Ctr.; Andrew Gaydos, National
Ctr. for Atmospheric Research
Date: Thursday, 14 August 2008
The Alliance Icing Research Study-II (AIRS-II) field program was conducted near
Montreal, Canada during the winter of 2003. The NASA Icing Remote Sensing System
(NIRSS) was deployed to detect in-flight icing hazards and consisted of a
vertically pointing multichannel radiometer, a ceilometer and an x-band cloud
radar. The radiometer was used to derive atmospheric temperature soundings and
integrated liquid water, while the ceilometer and radar were used only to define
cloud boundaries. The purpose of this study is to show that the radar
reflectivity profiles from AIRS-II case studies could be used to provide a
qualitative icing hazard.
Responses of plant biochemical substances to reflectance spectra at leaf and
canopy scales (Poster Presentation)
Paper 7083-38 of Conference 7083
Authors(s): Runhe Shi, Huifang Zhang, Juan Sun, Wei Gao, East China Normal Univ.
(China); Dafang Zhuang, Institute of Geographic Sciences and Natural Resources
Research (China); Zheng Niu, Institute of Remote Sensing Applications (China)
Date: Wednesday, 13 August 2008
Plant biochemical substances are key factors that influence or even control the
exchange of materials and energy between land and atmosphere. Their estimation
through leaf and canopy reflectance measurement is a fast and promising way
especially for large-scale observation with remote sensing. This paper discusses
the responses of plant biochemical substances to the reflectance spectra at both
leaf and canopy scales using a large amount of model simulated spectra.
Sensitivity analysis methods are used to differentiate their contributions to
the outcome spectra at different wavelengths and their scale effects.
Improvements of regional evapotranspiration model by considering topography
correction (Poster Presentation)
Paper 7083-21 of Conference 7083
Authors(s): Chaoshun Liu, Institute of Geographical Sciences and Natural
Resources Research (China)
Date: Wednesday, 13 August 2008
A remote sensing regional evapotranspiration(ET) model was built on the basis of
topography correction(slope, aspect and elevation). A variety of satellite data
which have visible, near-infrared and thermal infrared remote sensing data can
be used by this improved model. Combined with conventional ground meteorological
information, it can estimate regional distribution of ET under different climate
and terrain conditions, expanding the scope of application. This research
indicate that application of medium or high resolution satellite data to
calculate regional ET under undulating landform should consider the impact of
terrain. It improve the accuracy of ET estimates and has important reference
value.
Numerical simulation of the soil moisture over China during the summer of 2006
by Common Land Model (CLM) (Poster Presentation)
Paper 7083-48 of Conference 7083
Authors(s): Lanjun Zou, Shanghai Meteorological Ctr. (China); Wei Gao, Colorado
State Univ.; Tongwen Wu, Qifeng Lu, Yanwu Zhang, Chinese Meteorological
Administration (China)
Date: Wednesday, 13 August 2008
CLM is a useful tool to analyze how land surface effects the interaction of
energy, mass and momentum between land and atmosphere, but it is not carefully
validated over East-Asia monsoon zone with complex land surface conditions.
We use CLM to simulate the distribution and variation of soil moisture over
China in the summer of 2006 while comparing with AMSR-E and FY remotely observed
and station-observed soil moisture data.
Results illuminate that CLM can reasonably simulate the distribution and
variation of soil moisture over China, which is meaningful to the research on
climatic problems lack of soil moisture data.
Image compression effects in visual analysis (Paper Presentation)
Paper 7084-18 of Conference 7084
Authors(s): Alaitz Zabala, Univ. Autònoma de Barcelona (Spain); Xavier Pons,
Univ. Autònoma de Barcelona (Spain) and Ctr. de Recerca Ecològica i Aplicacions
Forestals (Spain); Francesc Auli-Llinas, Joan Serra-Sagrista, Univ. Autònoma de
Barcelona
Date: Monday, 11 August 2008
This study deals with the effects of lossy image compression in the visual
analysis of remotely sensed images. Color 1:5000 orthoimages have been submitted
to a JPEG2000 lossy compression algorithm and to on-screen photographic
interpretation. These processes have generated a set polygon layers, one for
every area and compression ratio. Maps obtained using images highly compressed
present high structural differences regarding to maps obtained with the original
images. On the other hand, the compression of 20% obtains values only slightly
different from those of the original photographic interpretation, but these
differences seem owed to the subjectivity of the photographic interpretation.
Estimation on net primary productivity of vegetation in Yellow River delta,
China (Poster Presentation)
Paper 7083-59 of Conference 7083
Authors(s): Wen-zuo Zhou, Southwest Univ. (China)
Date: Wednesday, 13 August 2008
Net primary productivity (NPP) of vegetation reflects its capacity of carbon
sequestration and it is basis to research transform of material and energy of
ecosystem. The NPP plays important role in evolvement of ecosystem and
interaction between climate and ecosystem in arid and semi-arid areas. This
paper was to estimate the NPP of vegetation in the Yellow River Delta (YRD),
China in 2004. The production efficiency model NPP-PEM modified for the regional
scale was developed for estimation of NPP with remotely sensed data MODIS and
meteorological data. The spatial and seasonal distribution of vegetation NPP was
analyzed with geographic information system technology. The difference of NPP
between different landscape vegetation was analyzed by comparison. The results
showed that the vegetation NPP had changed greatly with seasons and there were
obvious differences of NPP between landscapes in YRD during summer when plants
grow.
Image quality vs. sensitivity: fundamental sensor system engineering (Paper
Presentation)
Paper 7087-8 of Conference 7087
Authors(s): Carl F. Schueler, Schueler Consulting
Date: Monday, 11 August 2008
This paper focuses on image quality vs. sensitivity, a trade driving remote
sensing system complexity, cost, performance, schedule, and risk, and
encompassing all system performance and design attributes. Examples illustrate
the balance required to optimize cost, complexity, performance and risk.
Misalignment parameters estimation in refractive optical systems (Poster
Presentation)
Paper 7068-23 of Conference 7068
Authors(s): Braulio Fonseca Carneiro Albuquerque, Roberto Vieira da Fonseca
Lopes, Helio K. Kuga, Instituto Nacional de Pesquisas Espaciais (Brazil); Erica
G. Carvalho, Lucimara C. Nakata Scaduto, Mario A. Stefani, Opto Eletrônica S.A.
(Brazil)
Date: Monday, 11 August 2008
Misalignment characterization and estimation techniques based on Bayesian
estimators and wavefront measurements have been proposed in the literature. This
paper is the result of a deep study and investigation of these techniques, with
emphasis on an application to an intentionally simple system for the sake of
illustration that highlights conceptual issues that could be extended to more
realistic, complex optical systems. We also present insights on how to apply the
technique to the alignment of a 11-lens optical system used in the Brazilian
remote sensing camera MUX, that will fly on-board the upcoming CBERS 3&4
satellites
Adaptive control of conformal laser beams in deep atmospheric turbulence (Paper
Presentation)
Paper 7090-6 of Conference 7090
Authors(s): Svetlana L. Lachinova, Univ. of Maryland/College Park; Mikhail A.
Vorontsov, Army Research Lab.
Date: Tuesday, 12 August 2008
We present a mathematical model and provide an analysis of conformal optical
beam director systems composed of adaptive arrays of fiber collimators
(conformal system subapertures) for laser beam projection through deep
atmospheric turbulence. Adaptive optics compensation of turbulence-induced phase
aberrations in these systems is performed at each fiber collimator. Operation of
both the conformal system with mutually incoherent output laser beams and the
corresponding coherent system whose subapertures can be coherently combined
(phase-locked) at a remote target plane is compared for various adaptive system
configurations characterized by the number of fiber collimators, the adaptive
compensation resolution, and atmospheric turbulence conditions.
Space instrument performance traceability for high resolution satellite systems
(Paper Presentation)
Paper 7081-22 of Conference 7081
Authors(s): Andreas Eckardt, Anko Börner, Herbert Jahn, Deutsches Zentrum für
Luft- und Raumfahrt e.V. (Germany); Ralf Reulke, Humboldt-Univ. zu Berlin
(Germany)
Date: Tuesday, 12 August 2008
Technology changes in detector development and the significant improvement of
manufacturing accuracy in combination with the permanent engineering research
influences the next generation of spaceborne sensor systems, which is focused on
Earth observation and remote sensing. The paper gives an overview about current
technologies for performance measurements on sensor, focal plane assembly (FPA)
and instrument level without the optical performances of the telescope. The
paper proposes also a technology, which can be used for sensor performance
measurements on wafer level.
Analysis of concurrent space based and ground based atmospheric infrared
spectrometer measurements (Paper Presentation)
Paper 7086-14 of Conference 7086
Authors(s): Paul E. Lewis, National Geospatial-Intelligence Agency; David P.
Miller, Northrop Grumman IT - TASC; Sylvia S. Shen, The Aerospace Corp.; Robert
T. Kroutil, Los Alamos National Lab.
Date: Wednesday, 13 August 2008
Infrared spectrometer data from the space based downward looking NASA
Atmospheric Infrared Sounder (AIRS) and from the ground based upward looking
Atmospheric Emitted Radiance Interferometer (AERI) are used in this study.
Spatially and temporally concurrent cloud free data from these spectrometers are
correlated and analyzed. The effects of water vapor, ozone and carbon dioxide on
infrared remote sensing applications are characterized.
Analysis of ecological vulnerability based on landscape pattern and ecological
sensitivity: a case of Duerbete County (Poster Presentation)
Paper 7083-49 of Conference 7083
Authors(s): Jiang Miao, Peking Univ. (China); Wei Gao, Colorado State Univ.;
Xiuwan Chen, Xianfeng Zhang, Peking Univ. (China)
Date: Wednesday, 13 August 2008
Ecological vulnerability evaluation has important real significance and
scientific value. In this study, under the support of Remote Sensing and
Geographic Information System, we use ETM images, agrotype map and related
geographic information, and adopt a combined landscape pattern and ecosystem
sensitivity approach to access the ecological vulnerability of Duerbete county.
Its result is reasonable and can support ecological construction.
Hyperentanglement for advanced quantum communication (Paper Presentation)
Paper 7092-26 of Conference 7092
Authors(s): Julio T. Barreiro, Paul G. Kwiat, Univ. of Illinois at
Urbana-Champaign
Date: Thursday, 14 August 2008
Quantum entanglement is known to enable otherwise impossible feats in
various communication protocols, such as quantum key distribution and
super-dense coding. Here we describe efforts to further enhance
the usual benefits, by incorporating quantum states that are
simultaneously entangled in multiple
degrees of freedom -- ``hyperentangled''. Via the process of spontaneous
parametric down conversion, we have demonstrated photon pairs simultaneously
entangled in polarization and spatial mode, and have used these to realize
remote entangled state preparation, full polarization Bell-state analysis,
and the highest reported capacity quantum dense coding.
Middle-IR supercontinuum generations and applications (Paper Presentation)
Paper 7056-31 of Conference 7056
Authors(s): Shizhuo Yin, Jae Hun Kim, The Pennsylvania State Univ.; Paul B.
Ruffin, Eugene Edwards, Christina L. Brantley, U.S. Army Aviation and Missile
Research, Development and Engineering Ctr.; Claire Luo, General Opto Solutions,
LLC
Date: Thursday, 14 August 2008
In this paper, we present our recent work on middle IR supercontinuum generation
in single crystal fibers/waveguides and its applications to standoff, remote
sensing and multispectrum LADAR.
Hypertemporal satellite-based data products for wildland fire decision support
(Paper Presentation)
Paper 7089-9 of Conference 7089
Authors(s): Brad Quayle, USDA Forest Service
Date: Sunday, 10 August 2008
The USDA Forest Service Active Fire Mapping Program is an operational,
satellite-based fire detection and mapping system. The program provides a near
real-time status of wildland fire conditions in a geospatial context for the
United States and Canada. Hypertemporal image data collected by the Moderate
Resolution Imaging Spectroradiometer (MODIS) are the primary remote sensing data
source of the program.
The program utilizes real-time MODIS imagery to generate a series of timely fire
detection and assessment products. These products serve as an integrated
decision support tool and a data/information source for various fire
applications within the interagency wildland fire community.
Hopfield neural network based mixed pixel unmixing for multispectral data (Paper
Presentation)
Paper 7084-11 of Conference 7084
Authors(s): Shaohui Mei, Northwestern Polytechnical Univ. (China) and The Univ.
of Sydney (Australia); David D. Feng, The Univ. of Sydney (Australia) and Hong
Kong Polytechnic Univ. (China); Mingyi He, Northwestern Polytechnical Univ.
(China)
Date: Sunday, 10 August 2008
A fully constrained linear unmixing algorithm based on Hopfield Neural Network (HNN)
is proposed in this paper. The Nonnegative constraint, which has no close-form
analytical solution, is secured by the activation function of neurons instead of
traditional numerical method. The Sum-to-one constraint is embedded in the HNN
by adopting the least square Linear Mixture Model as the energy function. The
Noise Energy Percentage stop criterion is also proposed for the HNN to improve
its robustness for various noise levels. The proposed algorithm has been
compared with the widely used Fully Constrained Least Square algorithm and the
Gradient Descent Maximum Entropy algorithm on two sets of benchmark simulated
data. The experimental results demonstrate that this novel approaches can
decompose mixed pixels more accurately regardless of how much the endmember
overlaps. The HNN based unmixing algorithm also shows satisfatory performance in
dealing with practical multispectral remote sensing data.
CNES studies for on-board compression (Paper Presentation)
Paper 7084-14 of Conference 7084
Authors(s): Carole Thiebaut, Ctr. National d'Études Spatiales (France)
Date: Sunday, 10 August 2008
Future instruments planned by CNES for space remote sensing missions will lead
to higher bit rates because of the increase in resolution. Lossy data
compression with low complexity algorithms is then needed with compression ratio
always higher. New image compression algorithms have been used to increase their
compression performance while complying with image quality requirements. Recent
compression algorithms use a wavelet-transform and a bit-plane encoder. But
future compressors will have to be more powerful to reach higher compression
ratios. New transforms are studied by CNES to exceed the DWT but a performance
gap could be obtained with selective compression.
UHV-based TERS toward single molecule detection (Paper Presentation)
Paper 7033-14 of Conference 7033
Authors(s): Bruno Pettinger, Jens Steidtner, Fritz-Haber-Institut der
Max-Planck-Gesellschaft (Germany)
Date: Sunday, 10 August 2008
We present an UHV-based TER microscope employing an electronically adjustable
parabolic mirror to achieve a sharp focus and an efficient collection of
scattered light. The SPM and optical components are connected with optical
fibers to remote laser and spectrograph. For dyes adsorbed on Au(111), the Raman
signal from the focus of ~300nm diameter is weak. The TERS signal has an about
4000-fold higher level, though the enhanced signal stems only from a region
underneath the tip having a diameter of 15 nm. This indicates an underlying TERS
enhancement of about 10^6, sufficient to permit single molecule spectroscopy and
microscopy.
Plasmon mediated InGaAs/InP tunable far-IR detector (Paper Presentation)
Paper 7082-8 of Conference 7082
Authors(s): Walter R. Buchwald, Air Force Research Lab.; Himanshu Saxena, Robert
E. Peale, Univ. of Central Florida
Date: Monday, 11 August 2008
This work presents an experimental investigation of a THz detector based on
plasmon excitation in the two dimensional electron gas of a high electron
mobility transistor. This device, fabricated from the InGaAs/InP material
system, relies on e-beam lithography to fabricate a gate in the form of a
grating with sub-micron period. Sensitivity of the device conductance to
incident THz fields is reported. Direct absorption of THz radiation, temperature
effects, and the effects of source to drain current on system performance are
also investigated. It is expected that this class of device will find use in
spaceborne remote sensing applications.
Geospatial visualization of atmospheric chemistry satellite data using Google
Earth (Paper Presentation)
Paper 7087-12 of Conference 7087
Authors(s): John C. Burke, Raytheon
Date: Monday, 11 August 2008
Earth observation satellites employ various types of remote-sensing instruments
to peer into the secrets of the atmosphere. Many of these instruments collect
two-dimensional data stored as raster images which can be easily geo-referenced
and overlaid onto a virtual globe, with stunning results. However, certain
instruments collect three-dimensional science data which can pose a significant
challenge for visualization efforts. The Tropospheric Emission Spectrometer (TES)
is such an instrument which collects scientific data about atmospheric chemistry
and stores the outputs in an Oracle database. With some imaginative programming,
the data is transformed into interesting and information-packed visualizations
using the database to produce Google Earth-formatted files.
Lockin-speckle-interferometry for non-destructive testing (Paper Presentation)
Paper 7063-11 of Conference 7063
Authors(s): Philipp Menner, Henry Gerhard, Gerhard Busse, Univ. of Stuttgart
(Germany)
Date: Monday, 11 August 2008
Interferometrical methods like Shearography or Electronic-Speckle-Pattern-Interferometry
(ESPI) are being used for remote deformation measurements, e.g. for the purpose
of non-destructive testing. By applying the Lockin-technique, even small local
discontinuities on a large background deformation can be monitored. In this
method, heating is performed periodically by modulation of light intensity while
object deformation is continuously monitored and recorded to give a stack of
fringe images. After unwrapping, the temporal deformation is extracted by
Fourier transformation, resulting in an amplitude- and a phase angle image. The
phase angle image features significant advantages like defect selectivity,
enhanced signal-to-noise ratio and depth resolution.
New type of Bessel-like optical beams (Paper Presentation)
Paper 7062-12 of Conference 7062
Authors(s): Vladimir N. Belyi, Nikolai S. Kazak, Nikolai A. Khilo, Piotr I.
Ropot, Larisa I. Kramoreva, B.I. Stepanov Institute of Physics (Belarus)
Date: Monday, 11 August 2008
A new type of Bessel-like optical beams is considered. The distinguished
property of proposed beams is a linear decrease of the cone angle with the
propagation distance. Their angular spectrum beams is dependent on the aperture
limitations. The propagation length of the Bessel-like beam is larger than that
for the Bessel beam, and their axial intensity is considerably higher than one
for the equivalent Gaussian beam. It is caused by a very small divergence of
optical field in the near-axial region. The divergence of the main lobe is less
than 10-4 rad. Such beams are promising for the remote sensing applications.
Reflective liquid crystal polarization gratings with high efficiency and small
pitch (Paper Presentation)
Paper 7050-18 of Conference 7050
Authors(s): Ravi K. Komanduri, Chulwoo Oh, Michael J. Escuti, North Carolina
State Univ.
Date: Monday, 11 August 2008
We report our experimental success in realizing high efficiency liquid crystal
polarization gratings (LCPGs) on reflective substrates, with periods as small as
2.0µm, enabling the largest LCPG diffraction angles reported yet. Moreover,
these gratings retain nearly ideal electro-optical properties, including > 95%
hologram efficiency, high polarization contrast, sub-millisecond total switching
times, and relatively low voltage operation (thresholds ~1.5V, and operating
range < 10V). We discuss two independent fabrication approaches, each with its
own set of advantages, which have resulted in gratings with the above compelling
properties. We anticipate broad utility of these diffractive elements in
applications including displays, polarimetry, beam-steering, remote-sensing, and
beyond.
High voltage discharge control by spatial shaping of a laser induced plasma
(Poster Presentation)
Paper 7062-40 of Conference 7062
Authors(s): Nicholas J. West, Ian R. Jandrell, Univ. of the Witwatersrand (South
Africa); Andrew Forbes, Council for Scientific and Industrial Research (South
Africa)
Date: Monday, 11 August 2008
In this paper we report on the use of novel laser beam shaping to improve the
spatial distribution of the plasma for optimized high voltage discharge by laser
induced plasmas. Focused circular Gaussian beams are used as the standard and
compared to line focused beams, flat-top beams, and Bessel beams as a means of
triggering the discharge. We also consider the impact of multiple foci in the
discharge region and the impact this has on breakdown voltage and discharge
path. Finally, we report on the three-way interaction between the laser beam,
plasma and current discharge path, and comment on the physical mechanisms to
possibly explain some of the observations. The results of this investigation
will provide useful insight for the development of novel remote laser-triggering
strategies.
MERTIS: from laboratory to Mercury (Paper Presentation)
Paper 7082-19 of Conference 7082
Authors(s): Jorn Helbert, Thomas Säuberlin, Carsten Paproth, DLR Berlin-Adlershof
(Germany); Ingo Walter, Deutsches Zentrum für Luft- und Raumfahrt e.V.
(Germany); Gabriele Armold, Harald Hiesinger, Univ. Münster (Germany)
Date: Tuesday, 12 August 2008
MERTIS (MERcury Thermal infrared Imaging Spectrometer) is an advanced infrared
remote sensing instrument that is part of the ESA mission BepiColombo to planet
Mercury. The enabling technology that allows sending the first spectrometer for
the thermal infrared spectral range to Mercury is an uncooled microbolometer.
With this detector the instrument can be operated in the hot environment of
Mercury without the need for a cryogenic cooling system. The challenge is the
characterization and calibration of the instrument. We will report on the
ongoing calibration efforts including laboratory measurements of analogue
materials, end-to-end simulations and a detailed characterization of all
components.
Implementation of a global-scale operational data assimilation system for
satellite-based soil moisture retrievals (Paper Presentation)
Paper 7085-18 of Conference 7085
Authors(s): John D. Bolten, Wade Crow, U.S. Dept. of Agriculture; Xiwu Zhan,
National Oceanic and Atmospheric Administration; Curt Reynolds, U.S. Dept. of
Agriculture
Date: Wednesday, 13 August 2008
NASA’s soil moisture remote sensing product provided by the EOS Advanced
Microwave Scanning Radiometer (AMSR-E) has been incorporated into the U.S.
Department of Agriculture Crop Assessment and Data Retrieval (CADRE) decision
support system to provide better characterization of regional-scale surface
wetness in key agricultural areas. A quasi-global-scale operational data
assimilation system has been designed and implemented to provide CADRE a daily
product of integrated AMSR-E soil moisture observations with the CADRE two-layer
soil moisture model forecasts. A methodology of the system design and an
evaluation of the system performance over the Conterminous United States (CONUS)
will be presented.
Epifluorescence surveys of extreme environments using PanCam imaging systems:
Antarctica and the Mars regolith (Paper Presentation)
Paper 7097-25 of Conference 7097
Authors(s): Michael C. Storrie-Lombardi, Kinohi Institute; Jan-Peter Muller,
Univ. College London (United Kingdom); Martin R. Fisk, Oregon State Univ.;
Andrew D. Griffiths, Andrew J. Coates, Univ. College London (United Kingdom)
Date: Wednesday, 13 August 2008
Rapid delineation of organic distribution/abundance without destroying samples
or expending irreplaceable resources is a primary requirement for exploring
extreme environments in remote locations on Earth and Mars. PAHs, amino/nucleic
acids, photosynthetic pigments, and critical microbial metabolites exhibit
strong fluorescence following excitation by UV-VIS-NIR light. Imaging these
fluorescence signatures is easily accomplished with systems available on Mars
rovers and during human/robotic exploration on Earth. We discuss results with
epifluorescent imaging of bio-organic targets using filter bands comparable to
those available to ExoMars and review plans for epifluorescence surveys of
Schirmacher Oasis and Lake Untersee in Eastern Antarctic Dry Valleys.
Accuracy assessment on the crop area estimating method based on RS sampling at
national scale (Poster Presentation)
Paper 7085-52 of Conference 7085
Authors(s): Yonglan Qian, Chinese Meteorological Administration (China); Bangjie
Yang, Chinese Academy of Agricultural Sciences (China); Xianfeng Jiao, Zhiyuan
Pei, Ministry of Agriculture of the People's Republic of China (China)
Date: Wednesday, 13 August 2008
The paper reviews different methods and the corresponding assessments of
agricultural monitoring using remote sensing in developed countries and China,
then assesses the crop area estimating method using TM data as sampling area in
Northeast China. The ground truth is gathered with GPS and 40 sampling areas are
used to assess the classification accuracy. The error matrix is constructed and
the producer accuracy, the user accuracy and total accuracy are calculated
respectively. A new error index is introduced and it measures how much the
objective area estimation is positive or negative apart from the truth data.
Analyzing the 2007 drought of Poyang Lake basin with MODIS-derived Normalized
Difference Water Deviation Index (NDWDI) (Poster Presentation)
Paper 7083-61 of Conference 7083
Authors(s): Wenjiang Zhang, Sichuan Univ. (China); Zhiqiang Gao, Chinese Academy
of Sciences (China)
Date: Wednesday, 13 August 2008
The year of 2007 has seen the most serious drought in last century occurred in
Poyang Lake Basin. In the Drought, the area of Poyang Lake shrank from 3,500
square kilometer to only hundreds of square kilometer. The remotely sensed
Normalized Difference Water Indices (NDWI) for the summers of 2001―2007 were
calculated based on 8-day composite MODIS products, which were further used to
construct a water index (Normalized Difference Water Deviation Index, NDWDI) to
examine the sensitivity of remote sensing in the Drought. The study showed that
the NDWDI is more sensitive to regional drought than other
absolute-soil-moisture-based indices. With the index, the study extracted the
spatial-temporal characteristics of the Drought of Poyang Lake, and explored its
developing and withdrawing processes.
Application of support vector machines in cloud detection using images of EOS/MODIS
(Poster Presentation)
Paper 7088-22 of Conference 7088
Authors(s): Hanjie Wang, Yinming He, Chinese Academy of Sciences (China)
Date: Wednesday, 13 August 2008
Apply QuikSCAT data to rebuild wind profile (Poster Presentation)
Paper 7083-55 of Conference 7083
Authors(s): Jingwei Xu, Yong Luo, Nanjing Univ. of Information Science &
Technology (China) and Chinese Academy of Meteorological Sciences (China);
Xiuzhi Zhang, Rong Zhu, Chinese Academy of Meteorological Sciences (China) and
Chinese Academy of Meteorological Sciences (China)
Date: Wednesday, 13 August 2008
A small island with high masts is selected as reference site. The mesoscale
model MC2 and MM5 are applied to simulate the wind field there. The results show
that model simulation with high (low) correlation with the mast measurement in
the high (low) level in the contemporary time. The QuikSCAT data, 10 above the
sea level, is relatively high correlation with the masts observation, even the
island is quit near the mainland. Finally the remote sensing data of 10m high
and MC2 upper layer results are applied to rebuild the wind profile. Then
distinctly improve the wind resource estimation results.
Features of the large-scale circulation of the extremely heavy rain with severe
floods over South China in June 2005 and its possible cause (Poster
Presentation)
Paper 7083-28 of Conference 7083
Authors(s): Lijuan Wang, Zhaoyong Guan, Jinhai He, Nanjing Univ. of Information
Science & Technology (China)
Date: Wednesday, 13 August 2008
Based on NCEP/NCAR daily reanalysis data and some remote sensing data, the
circulation background of the extremely heavy rain with severe flood over South
China in June 2005 and its possible cause were analyzed. The results showed that
the weak El Nino events during 2004~2005 was the climatic background of the
extremely heavy rain with severe flood. The exceptional heating source over the
east coast of Arabian Sea and the Bay of Bengal forced an exceptional
anticyclonic circulation over its northwest high level leading to the South
Asian High enhancing and anomalous westward, making for heavy rain and severe
flood in South China areas.
Global information-energy networks (Poster Presentation)
Paper 7072-39 of Conference 7072
Authors(s): Igor I. Tyutyunnyk, Olena V. Dronenko, Vinnitsa State Technical
Univ. (Ukraine)
Date: Wednesday, 13 August 2008
The given work is dedicated to the future global information-energy networks.
The main goal of this network architecture is to effectively serve large
quantities of users. As user can be any device consuming or generating
information streams. This approach allows creating fully interactive
environment, where different objects are able to exchange information between
each other. Integration of such networks with the Internet extends them to whole
World.
The main application of such networks is transport layer for different global
and local services (e.g. television translation, Internet, industrial data
transferring systems, remote monitoring of different objects state and so on).
Landscape pattern change research of land use about the Baiyang River in Fukang
based on fractal theory (Poster Presentation)
Paper 7083-26 of Conference 7083
Authors(s): Xiaoming Cao, Graduate Univ. of Chinese Academy of Sciences (China)
Date: Wednesday, 13 August 2008
Combing the theory of Fractal and the techniques of Remote Sensing and GIS, we
study spatial pattern of Land Use of two periods(2000 and 2005)in Baiyang River
Firstly, under the support of RS and GIS, the classification information of land
use is extracted from the Landsant TM imageries and a spatial database of land
use is built. Secondly, we use the fractal model to calculate fractal indices of
different landscape patterns to study the Land Use change about Baiyang River.
Thirdly, Combining some landscape indices, we analyze the characteristics of
land use change quantificationally and provide sustainable development of land
use with several pieces of advice in the end.
The circulation background of the extremely heavy rain causing severe floods in
Huaihe River valley in 2003 and its relationship to the apparent heating (Poster
Presentation)
Paper 7085-55 of Conference 7085
Authors(s): Lijuan Wang, Zhaoyong Guan, Nanjing Univ. of Information Science &
Technology (China)
Date: Wednesday, 13 August 2008
Based on some remote sensing data, the circulation background of the extremely
heavy rain causing severe floods in Huaihe river valley in 2003 and its
relationships to the apparent heating were analyzed. The results showed that the
El Nino events with middling intensity during 2002~2003 was the previous
background of this extremely heavy rain. The exceptional heating source over the
Bay of Bengal forced an exceptional anticyclonic circulation over its northwest
high level leading to the South Asian High enhancing and maintaining over the
Tibetan Plateau , the south of Changjiang river valleys and South China, so
Huaihe river valley areas just located the updraft areas which was in the south
of the high-level jet,making for heavy rain and severe flood.
Raman analysis of common gases using a multi-pass capillary cell (MCC) (Paper
Presentation)
Paper 7061A-19 of Conference 7061A
Authors(s): Christopher M. Gordon, William F. Pearman, Univ. of South Carolina;
Chance Carter, Lawrence Livermore National Lab.; Michael Angel, Univ. of South
Carolina; James W. Chan, Lawrence Livermore National Lab.
Date: Thursday, 14 August 2008
Raman measurements for some common, non-absorbing gases are made using a simple
multipass capillary Raman cell (MCC) coupled to an 18@1 fiber-optic Raman probe.
The MCC is made by coating a 1-2 mm glass capillary with a highly reflective
metal and provides up to 30-fold enhancements in Raman signal. The device is
small, simple to construct, and optical alignment is trivial making it suitable
for remote and in-situ measurements with optical fibers. With our
first-generation MCCs made with silver-coated capillaries, LODs of 0.02% 0.2%
were obtained for CH4 and CO2 respectively.
Convection diagnosis and nowcasting for oceanic aviation applications (Paper
Presentation)
Paper 7088-8 of Conference 7088
Authors(s): Cathy J. Kessinger, Huaqing Cai, Nancy Rehak, Dan Megenhardt,
National Ctr. for Atmospheric Research; Jeffrey D. Hawkins, Richard L. Bankert,
Naval Research Lab.; Earle Williams, MIT Lincoln Lab.
Date: Thursday, 14 August 2008
Oceanic airspace has few high resolution products that depict the current or
future location of convection. Satellite remote sensing provides the best means
to monitor convective attributes near the temporal and spatial resolution
desired by the oceanic aviation community. Convective diagnosis and nowcasting
products have been developed that use geostationary and polar-orbiting satellite
observations with a global model. Nowcasts of convection location are
accomplished for 1-hr or 2-hr over the Gulf of Mexico, Pacific, and continental
United States domains. Independent validation will be accomplished with the TRMM
Precipitation Radar and Lightning Imaging System, the CloudSat Cloud Profiling
Radar and the NEXRAD network. Currently, the nowcasting system uses an
object-tracker to extrapolate identified convective storms. To capture storm
initiation, satellite-derived environmental parameters that identify favorable
conditions are being included.
Interferometric radiometer for in-flight detection of aviation hazards (Paper
Presentation)
Paper 7088-10 of Conference 7088
Authors(s): Bill Smith, Sr., Stanislav Kireev, Hampton Univ.; Leanne West, Gary
Gimmestad, Georgia Tech Research Institute; Larry Cornman, Univ. Corp. for
Atmospheric Research; Wayne Feltz, Univ. of Wisconsin/Madison; Glen Perram, Air
Force Institute of Technology; Taumi Daniels, NASA Langley Research Ctr.
Date: Thursday, 14 August 2008
A new instrument concept for in-flight detection of aviation hazards is being
investigated. The instrument, known generically as the Forward-Looking
Interferometer (FLI) is a passive infrared radiometer based on high-resolution
Fourier transform spectrometry technologies developed for satellite remote
sensing. The FLI concept is being evaluated for its potential to address
multiple hazards including clear air turbulence (CAT), volcanic ash, wake
vortices, low slant range visibility, dry wind shear, and icing, during all
phases of flight (takeoff, cruise, and landing). The project has three major
elements: sensitivity studies; development of algorithms to estimate the hazard
severity; and field measurements.
Corrections for rotating shadowband pyranometers for solar resource assessment
(Paper Presentation)
Paper 7046-15 of Conference 7046
Authors(s): Norbert Geuder, Deutsches Zentrum für Luft- und Raumfahrt e.V.
(Germany); Benedikt Pulvermueller, Solar Millennium AG (Germany); Oliver
Vorbrugg, FLAGSOL GmbH (Germany)
Date: Thursday, 14 August 2008
Solar irradiation data are rarely available in regions suitable for solar energy
use. As small deviations decide over the realization of solar power plants,
accurate but affordable measurements are indispensable. The most accurate
sensors are little appropriate for installation at remote stations due to
soiling, high power consumption and elevated costs. Semiconductor sensors
finally show a better performance. New correction functions will be presented
for measurements with Rotating Shadowband Pyranometers with an integrated
temperature probe. For several sites, uncorrected and corrected RSP data (RMS
deviations <2%) will be analyzed by means of precise measurements and compared
with other algorithms.
Mix and match: enhanced Raman spectroscopy instrumentation in field applications
(Paper Presentation)
Paper 7097-43 of Conference 7097
Authors(s): Bin Chen, Christopher P. McKay, Carol R. Stoker, Nathalie A. Cabrol,
NASA Ames Research Ctr.
Date: Thursday, 14 August 2008
Structural and composition analytical methods including Raman spectroscopy,
Laser Induced Fluorescence (LIF), and laser breakdown spectroscopy (LIBS) have
been used to detect and analyze the minerals and fossils from planetary
surfaces. Raman spectroscopy analysis, in particular, has advantage of detecting
chemical groups such as C-C, C-O and C-N as molecular markers. These
compositions have large scattering cross-section, yielding high sensitivity and
high selectivity from the background mixtures. This analytical technique is very
powerful for the detection of organic and biogenic organic detections on the
surface of planetary and Mars analog environments in situ. We will discuss
design, integration and laboratory tests of field Raman spectrometer suite that
combines complementary sensing capability. We will evaluate laser excitation
conditions and optical probe designs for further instrument improvement.
Comparison studies of a field unit and a laboratory micro Raman spectrometer
equipped with multiple laser excitation wavelengths have shown the potentials to
further improve the instrument for in situ deployment and for orbital remote
sensing. We will discuss deployment potentials of the active sensing techniques
for small payloads and standoff detections.
Use of MODIS satellite images to investigate the chlorophyll-a concentrations in
Lake Okeechobee, Florida (Poster Presentation)
Paper 7083-66 of Conference 7083
Authors(s): Ammarin Makkeasorn, Ni-Bin Chang, Univ. of Central Florida; Kang-Ren
Jin, South Florida Water Management
Date: Wednesday, 13 August 2008
Lake Okeechobee, a large, shallow, and eutrophic lake in south Florida is the
second largest land-locked, freshwater lake in the U.S. Chlorophyll-a is the
green pigment that is normally found in plants. Chlorophyll-a allows plants to
use the solar energy to convert water and carbon dioxide into plants’ cells and
oxygen known as photosynthesis. One early scenario envisages that increasing
input of nutrient, especially the phosphorus, from the Lake Okeechobee drainage
basin over the last few decades has significantly deteriorated the water quality
in the lake. A different scenario, however, showed that a large proportion of
nutrients are sorbed onto fine sediment particles, which are periodically
resuspended leading to partial nutrient release regardless of the present
nutrient loads. As a consequence, nutrient-enriched lake water therefore
flourishes algal bloom in Lake Okeechobee. Additional impact that causes change
of chlorophyll-a concentration was due to the gradual changes of the flow regime
to the lake. Atlantic Multidecadal Oscillation (AMO), one type of the salient
global climate change patterns, is the term for changes in river flow patterns
based on long term changes in the temperature of the surface of the North
Atlantic Ocean. Changes in river flows occur because significant changes in
ocean temperature affect rainfall patterns on a continental scale. It had been
observed that, between AMO warm (i.e., from 1940 to 1969) and cold phases (i.e.,
from 1970 to 1999), the inflow to Lake Okeechobee varies by 40%” with respect to
the average of daily mean over the warm and cold phases, respectively. The
ultimate change of the concentration of chlorophyll-a in a water body would be
normally used as a surrogate indicator to assess the water quality in this lake.
While the in-situ water quality monitoring is time-consuming and costly,
multispectral remote sensing sensors onboard satellites can detect chlorophyll-a
contained in most phytoplankton efficiently. The objective of this study is thus
to demonstrate the use of MODIS/Terra Surface Reflectance 8-Day images to
estimate the chlorophyll-a concentrations in the Lake Okeechobee. The
development of multiple linear regression model and genetic programming model
help the information retrieval for spatial mapping of chlorophyll-a
concentrations comparatively. Multi-decadal changes of chlorophyll-a
concentrations will be presented in response to the long-term trend in terms of
eutrophication.
Thickness of cryolithosphere and frozen rocks on Mars (Paper Presentation)
Paper 7097-36 of Conference 7097
Authors(s): Ilya Komarov, Vladislav Isaev, Oleg Abramenko, M.V. Lomonosov Moscow
State Univ. (Russia)
Date: Thursday, 14 August 2008